//===-- GDBRemoteCommunicationServerLLGS.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 #include "lldb/Host/Config.h" #include #include #include #include "GDBRemoteCommunicationServerLLGS.h" #include "lldb/Host/ConnectionFileDescriptor.h" #include "lldb/Host/Debug.h" #include "lldb/Host/File.h" #include "lldb/Host/FileAction.h" #include "lldb/Host/FileSystem.h" #include "lldb/Host/Host.h" #include "lldb/Host/HostInfo.h" #include "lldb/Host/PosixApi.h" #include "lldb/Host/common/NativeProcessProtocol.h" #include "lldb/Host/common/NativeRegisterContext.h" #include "lldb/Host/common/NativeThreadProtocol.h" #include "lldb/Target/MemoryRegionInfo.h" #include "lldb/Utility/Args.h" #include "lldb/Utility/DataBuffer.h" #include "lldb/Utility/Endian.h" #include "lldb/Utility/GDBRemote.h" #include "lldb/Utility/LLDBAssert.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/RegisterValue.h" #include "lldb/Utility/State.h" #include "lldb/Utility/StreamString.h" #include "lldb/Utility/UnimplementedError.h" #include "lldb/Utility/UriParser.h" #include "llvm/ADT/Triple.h" #include "llvm/Support/JSON.h" #include "llvm/Support/ScopedPrinter.h" #include "ProcessGDBRemote.h" #include "ProcessGDBRemoteLog.h" #include "lldb/Utility/StringExtractorGDBRemote.h" using namespace lldb; using namespace lldb_private; using namespace lldb_private::process_gdb_remote; using namespace llvm; // GDBRemote Errors namespace { enum GDBRemoteServerError { // Set to the first unused error number in literal form below eErrorFirst = 29, eErrorNoProcess = eErrorFirst, eErrorResume, eErrorExitStatus }; } // GDBRemoteCommunicationServerLLGS constructor GDBRemoteCommunicationServerLLGS::GDBRemoteCommunicationServerLLGS( MainLoop &mainloop, const NativeProcessProtocol::Factory &process_factory) : GDBRemoteCommunicationServerCommon("gdb-remote.server", "gdb-remote.server.rx_packet"), m_mainloop(mainloop), m_process_factory(process_factory), m_stdio_communication("process.stdio") { RegisterPacketHandlers(); } void GDBRemoteCommunicationServerLLGS::RegisterPacketHandlers() { RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_C, &GDBRemoteCommunicationServerLLGS::Handle_C); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_c, &GDBRemoteCommunicationServerLLGS::Handle_c); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_D, &GDBRemoteCommunicationServerLLGS::Handle_D); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_H, &GDBRemoteCommunicationServerLLGS::Handle_H); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_I, &GDBRemoteCommunicationServerLLGS::Handle_I); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_interrupt, &GDBRemoteCommunicationServerLLGS::Handle_interrupt); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_m, &GDBRemoteCommunicationServerLLGS::Handle_memory_read); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_M, &GDBRemoteCommunicationServerLLGS::Handle_M); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType__M, &GDBRemoteCommunicationServerLLGS::Handle__M); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType__m, &GDBRemoteCommunicationServerLLGS::Handle__m); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_p, &GDBRemoteCommunicationServerLLGS::Handle_p); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_P, &GDBRemoteCommunicationServerLLGS::Handle_P); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_qC, &GDBRemoteCommunicationServerLLGS::Handle_qC); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qfThreadInfo, &GDBRemoteCommunicationServerLLGS::Handle_qfThreadInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qFileLoadAddress, &GDBRemoteCommunicationServerLLGS::Handle_qFileLoadAddress); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qGetWorkingDir, &GDBRemoteCommunicationServerLLGS::Handle_qGetWorkingDir); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qMemoryRegionInfo, &GDBRemoteCommunicationServerLLGS::Handle_qMemoryRegionInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qMemoryRegionInfoSupported, &GDBRemoteCommunicationServerLLGS::Handle_qMemoryRegionInfoSupported); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qProcessInfo, &GDBRemoteCommunicationServerLLGS::Handle_qProcessInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qRegisterInfo, &GDBRemoteCommunicationServerLLGS::Handle_qRegisterInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_QRestoreRegisterState, &GDBRemoteCommunicationServerLLGS::Handle_QRestoreRegisterState); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_QSaveRegisterState, &GDBRemoteCommunicationServerLLGS::Handle_QSaveRegisterState); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_QSetDisableASLR, &GDBRemoteCommunicationServerLLGS::Handle_QSetDisableASLR); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_QSetWorkingDir, &GDBRemoteCommunicationServerLLGS::Handle_QSetWorkingDir); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qsThreadInfo, &GDBRemoteCommunicationServerLLGS::Handle_qsThreadInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qThreadStopInfo, &GDBRemoteCommunicationServerLLGS::Handle_qThreadStopInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jThreadsInfo, &GDBRemoteCommunicationServerLLGS::Handle_jThreadsInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qWatchpointSupportInfo, &GDBRemoteCommunicationServerLLGS::Handle_qWatchpointSupportInfo); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_qXfer, &GDBRemoteCommunicationServerLLGS::Handle_qXfer); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_s, &GDBRemoteCommunicationServerLLGS::Handle_s); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_stop_reason, &GDBRemoteCommunicationServerLLGS::Handle_stop_reason); // ? RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_vAttach, &GDBRemoteCommunicationServerLLGS::Handle_vAttach); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_vCont, &GDBRemoteCommunicationServerLLGS::Handle_vCont); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_vCont_actions, &GDBRemoteCommunicationServerLLGS::Handle_vCont_actions); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_x, &GDBRemoteCommunicationServerLLGS::Handle_memory_read); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_Z, &GDBRemoteCommunicationServerLLGS::Handle_Z); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_z, &GDBRemoteCommunicationServerLLGS::Handle_z); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_QPassSignals, &GDBRemoteCommunicationServerLLGS::Handle_QPassSignals); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jTraceStart, &GDBRemoteCommunicationServerLLGS::Handle_jTraceStart); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jTraceBufferRead, &GDBRemoteCommunicationServerLLGS::Handle_jTraceRead); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jTraceMetaRead, &GDBRemoteCommunicationServerLLGS::Handle_jTraceRead); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jTraceStop, &GDBRemoteCommunicationServerLLGS::Handle_jTraceStop); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jTraceConfigRead, &GDBRemoteCommunicationServerLLGS::Handle_jTraceConfigRead); RegisterMemberFunctionHandler( StringExtractorGDBRemote::eServerPacketType_jLLDBTraceSupportedType, &GDBRemoteCommunicationServerLLGS::Handle_jLLDBTraceSupportedType); RegisterMemberFunctionHandler(StringExtractorGDBRemote::eServerPacketType_g, &GDBRemoteCommunicationServerLLGS::Handle_g); RegisterPacketHandler(StringExtractorGDBRemote::eServerPacketType_k, [this](StringExtractorGDBRemote packet, Status &error, bool &interrupt, bool &quit) { quit = true; return this->Handle_k(packet); }); } void GDBRemoteCommunicationServerLLGS::SetLaunchInfo(const ProcessLaunchInfo &info) { m_process_launch_info = info; } Status GDBRemoteCommunicationServerLLGS::LaunchProcess() { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (!m_process_launch_info.GetArguments().GetArgumentCount()) return Status("%s: no process command line specified to launch", __FUNCTION__); const bool should_forward_stdio = m_process_launch_info.GetFileActionForFD(STDIN_FILENO) == nullptr || m_process_launch_info.GetFileActionForFD(STDOUT_FILENO) == nullptr || m_process_launch_info.GetFileActionForFD(STDERR_FILENO) == nullptr; m_process_launch_info.SetLaunchInSeparateProcessGroup(true); m_process_launch_info.GetFlags().Set(eLaunchFlagDebug); if (should_forward_stdio) { // Temporarily relax the following for Windows until we can take advantage // of the recently added pty support. This doesn't really affect the use of // lldb-server on Windows. #if !defined(_WIN32) if (llvm::Error Err = m_process_launch_info.SetUpPtyRedirection()) return Status(std::move(Err)); #endif } { std::lock_guard guard(m_debugged_process_mutex); assert(!m_debugged_process_up && "lldb-server creating debugged " "process but one already exists"); auto process_or = m_process_factory.Launch(m_process_launch_info, *this, m_mainloop); if (!process_or) return Status(process_or.takeError()); m_debugged_process_up = std::move(*process_or); } // Handle mirroring of inferior stdout/stderr over the gdb-remote protocol as // needed. llgs local-process debugging may specify PTY paths, which will // make these file actions non-null process launch -i/e/o will also make // these file actions non-null nullptr means that the traffic is expected to // flow over gdb-remote protocol if (should_forward_stdio) { // nullptr means it's not redirected to file or pty (in case of LLGS local) // at least one of stdio will be transferred pty<->gdb-remote we need to // give the pty master handle to this object to read and/or write LLDB_LOG(log, "pid = {0}: setting up stdout/stderr redirection via $O " "gdb-remote commands", m_debugged_process_up->GetID()); // Setup stdout/stderr mapping from inferior to $O auto terminal_fd = m_debugged_process_up->GetTerminalFileDescriptor(); if (terminal_fd >= 0) { LLDB_LOGF(log, "ProcessGDBRemoteCommunicationServerLLGS::%s setting " "inferior STDIO fd to %d", __FUNCTION__, terminal_fd); Status status = SetSTDIOFileDescriptor(terminal_fd); if (status.Fail()) return status; } else { LLDB_LOGF(log, "ProcessGDBRemoteCommunicationServerLLGS::%s ignoring " "inferior STDIO since terminal fd reported as %d", __FUNCTION__, terminal_fd); } } else { LLDB_LOG(log, "pid = {0} skipping stdout/stderr redirection via $O: inferior " "will communicate over client-provided file descriptors", m_debugged_process_up->GetID()); } printf("Launched '%s' as process %" PRIu64 "...\n", m_process_launch_info.GetArguments().GetArgumentAtIndex(0), m_debugged_process_up->GetID()); return Status(); } Status GDBRemoteCommunicationServerLLGS::AttachToProcess(lldb::pid_t pid) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s pid %" PRIu64, __FUNCTION__, pid); // Before we try to attach, make sure we aren't already monitoring something // else. if (m_debugged_process_up && m_debugged_process_up->GetID() != LLDB_INVALID_PROCESS_ID) return Status("cannot attach to process %" PRIu64 " when another process with pid %" PRIu64 " is being debugged.", pid, m_debugged_process_up->GetID()); // Try to attach. auto process_or = m_process_factory.Attach(pid, *this, m_mainloop); if (!process_or) { Status status(process_or.takeError()); llvm::errs() << llvm::formatv("failed to attach to process {0}: {1}", pid, status); return status; } m_debugged_process_up = std::move(*process_or); // Setup stdout/stderr mapping from inferior. auto terminal_fd = m_debugged_process_up->GetTerminalFileDescriptor(); if (terminal_fd >= 0) { LLDB_LOGF(log, "ProcessGDBRemoteCommunicationServerLLGS::%s setting " "inferior STDIO fd to %d", __FUNCTION__, terminal_fd); Status status = SetSTDIOFileDescriptor(terminal_fd); if (status.Fail()) return status; } else { LLDB_LOGF(log, "ProcessGDBRemoteCommunicationServerLLGS::%s ignoring " "inferior STDIO since terminal fd reported as %d", __FUNCTION__, terminal_fd); } printf("Attached to process %" PRIu64 "...\n", pid); return Status(); } void GDBRemoteCommunicationServerLLGS::InitializeDelegate( NativeProcessProtocol *process) { assert(process && "process cannot be NULL"); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (log) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s called with " "NativeProcessProtocol pid %" PRIu64 ", current state: %s", __FUNCTION__, process->GetID(), StateAsCString(process->GetState())); } } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::SendWResponse( NativeProcessProtocol *process) { assert(process && "process cannot be NULL"); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); // send W notification auto wait_status = process->GetExitStatus(); if (!wait_status) { LLDB_LOG(log, "pid = {0}, failed to retrieve process exit status", process->GetID()); StreamGDBRemote response; response.PutChar('E'); response.PutHex8(GDBRemoteServerError::eErrorExitStatus); return SendPacketNoLock(response.GetString()); } LLDB_LOG(log, "pid = {0}, returning exit type {1}", process->GetID(), *wait_status); StreamGDBRemote response; response.Format("{0:g}", *wait_status); return SendPacketNoLock(response.GetString()); } static void AppendHexValue(StreamString &response, const uint8_t *buf, uint32_t buf_size, bool swap) { int64_t i; if (swap) { for (i = buf_size - 1; i >= 0; i--) response.PutHex8(buf[i]); } else { for (i = 0; i < buf_size; i++) response.PutHex8(buf[i]); } } static llvm::StringRef GetEncodingNameOrEmpty(const RegisterInfo ®_info) { switch (reg_info.encoding) { case eEncodingUint: return "uint"; case eEncodingSint: return "sint"; case eEncodingIEEE754: return "ieee754"; case eEncodingVector: return "vector"; default: return ""; } } static llvm::StringRef GetFormatNameOrEmpty(const RegisterInfo ®_info) { switch (reg_info.format) { case eFormatBinary: return "binary"; case eFormatDecimal: return "decimal"; case eFormatHex: return "hex"; case eFormatFloat: return "float"; case eFormatVectorOfSInt8: return "vector-sint8"; case eFormatVectorOfUInt8: return "vector-uint8"; case eFormatVectorOfSInt16: return "vector-sint16"; case eFormatVectorOfUInt16: return "vector-uint16"; case eFormatVectorOfSInt32: return "vector-sint32"; case eFormatVectorOfUInt32: return "vector-uint32"; case eFormatVectorOfFloat32: return "vector-float32"; case eFormatVectorOfUInt64: return "vector-uint64"; case eFormatVectorOfUInt128: return "vector-uint128"; default: return ""; }; } static llvm::StringRef GetKindGenericOrEmpty(const RegisterInfo ®_info) { switch (reg_info.kinds[RegisterKind::eRegisterKindGeneric]) { case LLDB_REGNUM_GENERIC_PC: return "pc"; case LLDB_REGNUM_GENERIC_SP: return "sp"; case LLDB_REGNUM_GENERIC_FP: return "fp"; case LLDB_REGNUM_GENERIC_RA: return "ra"; case LLDB_REGNUM_GENERIC_FLAGS: return "flags"; case LLDB_REGNUM_GENERIC_ARG1: return "arg1"; case LLDB_REGNUM_GENERIC_ARG2: return "arg2"; case LLDB_REGNUM_GENERIC_ARG3: return "arg3"; case LLDB_REGNUM_GENERIC_ARG4: return "arg4"; case LLDB_REGNUM_GENERIC_ARG5: return "arg5"; case LLDB_REGNUM_GENERIC_ARG6: return "arg6"; case LLDB_REGNUM_GENERIC_ARG7: return "arg7"; case LLDB_REGNUM_GENERIC_ARG8: return "arg8"; default: return ""; } } static void CollectRegNums(const uint32_t *reg_num, StreamString &response, bool usehex) { for (int i = 0; *reg_num != LLDB_INVALID_REGNUM; ++reg_num, ++i) { if (i > 0) response.PutChar(','); if (usehex) response.Printf("%" PRIx32, *reg_num); else response.Printf("%" PRIu32, *reg_num); } } static void WriteRegisterValueInHexFixedWidth( StreamString &response, NativeRegisterContext ®_ctx, const RegisterInfo ®_info, const RegisterValue *reg_value_p, lldb::ByteOrder byte_order) { RegisterValue reg_value; if (!reg_value_p) { Status error = reg_ctx.ReadRegister(®_info, reg_value); if (error.Success()) reg_value_p = ®_value; // else log. } if (reg_value_p) { AppendHexValue(response, (const uint8_t *)reg_value_p->GetBytes(), reg_value_p->GetByteSize(), byte_order == lldb::eByteOrderLittle); } else { // Zero-out any unreadable values. if (reg_info.byte_size > 0) { std::basic_string zeros(reg_info.byte_size, '\0'); AppendHexValue(response, zeros.data(), zeros.size(), false); } } } static llvm::Optional GetRegistersAsJSON(NativeThreadProtocol &thread) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); NativeRegisterContext& reg_ctx = thread.GetRegisterContext(); json::Object register_object; #ifdef LLDB_JTHREADSINFO_FULL_REGISTER_SET const auto expedited_regs = reg_ctx.GetExpeditedRegisters(ExpeditedRegs::Full); #else const auto expedited_regs = reg_ctx.GetExpeditedRegisters(ExpeditedRegs::Minimal); #endif if (expedited_regs.empty()) return llvm::None; for (auto ®_num : expedited_regs) { const RegisterInfo *const reg_info_p = reg_ctx.GetRegisterInfoAtIndex(reg_num); if (reg_info_p == nullptr) { LLDB_LOGF(log, "%s failed to get register info for register index %" PRIu32, __FUNCTION__, reg_num); continue; } if (reg_info_p->value_regs != nullptr) continue; // Only expedite registers that are not contained in other // registers. RegisterValue reg_value; Status error = reg_ctx.ReadRegister(reg_info_p, reg_value); if (error.Fail()) { LLDB_LOGF(log, "%s failed to read register '%s' index %" PRIu32 ": %s", __FUNCTION__, reg_info_p->name ? reg_info_p->name : "", reg_num, error.AsCString()); continue; } StreamString stream; WriteRegisterValueInHexFixedWidth(stream, reg_ctx, *reg_info_p, ®_value, lldb::eByteOrderBig); register_object.try_emplace(llvm::to_string(reg_num), stream.GetString().str()); } return register_object; } static const char *GetStopReasonString(StopReason stop_reason) { switch (stop_reason) { case eStopReasonTrace: return "trace"; case eStopReasonBreakpoint: return "breakpoint"; case eStopReasonWatchpoint: return "watchpoint"; case eStopReasonSignal: return "signal"; case eStopReasonException: return "exception"; case eStopReasonExec: return "exec"; case eStopReasonInstrumentation: case eStopReasonInvalid: case eStopReasonPlanComplete: case eStopReasonThreadExiting: case eStopReasonNone: break; // ignored } return nullptr; } static llvm::Expected GetJSONThreadsInfo(NativeProcessProtocol &process, bool abridged) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); json::Array threads_array; // Ensure we can get info on the given thread. uint32_t thread_idx = 0; for (NativeThreadProtocol *thread; (thread = process.GetThreadAtIndex(thread_idx)) != nullptr; ++thread_idx) { lldb::tid_t tid = thread->GetID(); // Grab the reason this thread stopped. struct ThreadStopInfo tid_stop_info; std::string description; if (!thread->GetStopReason(tid_stop_info, description)) return llvm::make_error( "failed to get stop reason", llvm::inconvertibleErrorCode()); const int signum = tid_stop_info.details.signal.signo; if (log) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s pid %" PRIu64 " tid %" PRIu64 " got signal signo = %d, reason = %d, exc_type = %" PRIu64, __FUNCTION__, process.GetID(), tid, signum, tid_stop_info.reason, tid_stop_info.details.exception.type); } json::Object thread_obj; if (!abridged) { if (llvm::Optional registers = GetRegistersAsJSON(*thread)) thread_obj.try_emplace("registers", std::move(*registers)); } thread_obj.try_emplace("tid", static_cast(tid)); if (signum != 0) thread_obj.try_emplace("signal", signum); const std::string thread_name = thread->GetName(); if (!thread_name.empty()) thread_obj.try_emplace("name", thread_name); const char *stop_reason = GetStopReasonString(tid_stop_info.reason); if (stop_reason) thread_obj.try_emplace("reason", stop_reason); if (!description.empty()) thread_obj.try_emplace("description", description); if ((tid_stop_info.reason == eStopReasonException) && tid_stop_info.details.exception.type) { thread_obj.try_emplace( "metype", static_cast(tid_stop_info.details.exception.type)); json::Array medata_array; for (uint32_t i = 0; i < tid_stop_info.details.exception.data_count; ++i) { medata_array.push_back( static_cast(tid_stop_info.details.exception.data[i])); } thread_obj.try_emplace("medata", std::move(medata_array)); } threads_array.push_back(std::move(thread_obj)); } return threads_array; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::SendStopReplyPacketForThread( lldb::tid_t tid) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); // Ensure we have a debugged process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(50); LLDB_LOG(log, "preparing packet for pid {0} tid {1}", m_debugged_process_up->GetID(), tid); // Ensure we can get info on the given thread. NativeThreadProtocol *thread = m_debugged_process_up->GetThreadByID(tid); if (!thread) return SendErrorResponse(51); // Grab the reason this thread stopped. struct ThreadStopInfo tid_stop_info; std::string description; if (!thread->GetStopReason(tid_stop_info, description)) return SendErrorResponse(52); // FIXME implement register handling for exec'd inferiors. // if (tid_stop_info.reason == eStopReasonExec) { // const bool force = true; // InitializeRegisters(force); // } StreamString response; // Output the T packet with the thread response.PutChar('T'); int signum = tid_stop_info.details.signal.signo; LLDB_LOG( log, "pid {0}, tid {1}, got signal signo = {2}, reason = {3}, exc_type = {4}", m_debugged_process_up->GetID(), tid, signum, int(tid_stop_info.reason), tid_stop_info.details.exception.type); // Print the signal number. response.PutHex8(signum & 0xff); // Include the tid. response.Printf("thread:%" PRIx64 ";", tid); // Include the thread name if there is one. const std::string thread_name = thread->GetName(); if (!thread_name.empty()) { size_t thread_name_len = thread_name.length(); if (::strcspn(thread_name.c_str(), "$#+-;:") == thread_name_len) { response.PutCString("name:"); response.PutCString(thread_name); } else { // The thread name contains special chars, send as hex bytes. response.PutCString("hexname:"); response.PutStringAsRawHex8(thread_name); } response.PutChar(';'); } // If a 'QListThreadsInStopReply' was sent to enable this feature, we will // send all thread IDs back in the "threads" key whose value is a list of hex // thread IDs separated by commas: // "threads:10a,10b,10c;" // This will save the debugger from having to send a pair of qfThreadInfo and // qsThreadInfo packets, but it also might take a lot of room in the stop // reply packet, so it must be enabled only on systems where there are no // limits on packet lengths. if (m_list_threads_in_stop_reply) { response.PutCString("threads:"); uint32_t thread_index = 0; NativeThreadProtocol *listed_thread; for (listed_thread = m_debugged_process_up->GetThreadAtIndex(thread_index); listed_thread; ++thread_index, listed_thread = m_debugged_process_up->GetThreadAtIndex(thread_index)) { if (thread_index > 0) response.PutChar(','); response.Printf("%" PRIx64, listed_thread->GetID()); } response.PutChar(';'); // Include JSON info that describes the stop reason for any threads that // actually have stop reasons. We use the new "jstopinfo" key whose values // is hex ascii JSON that contains the thread IDs thread stop info only for // threads that have stop reasons. Only send this if we have more than one // thread otherwise this packet has all the info it needs. if (thread_index > 1) { const bool threads_with_valid_stop_info_only = true; llvm::Expected threads_info = GetJSONThreadsInfo( *m_debugged_process_up, threads_with_valid_stop_info_only); if (threads_info) { response.PutCString("jstopinfo:"); StreamString unescaped_response; unescaped_response.AsRawOstream() << std::move(*threads_info); response.PutStringAsRawHex8(unescaped_response.GetData()); response.PutChar(';'); } else { LLDB_LOG_ERROR(log, threads_info.takeError(), "failed to prepare a jstopinfo field for pid {1}: {0}", m_debugged_process_up->GetID()); } } uint32_t i = 0; response.PutCString("thread-pcs"); char delimiter = ':'; for (NativeThreadProtocol *thread; (thread = m_debugged_process_up->GetThreadAtIndex(i)) != nullptr; ++i) { NativeRegisterContext& reg_ctx = thread->GetRegisterContext(); uint32_t reg_to_read = reg_ctx.ConvertRegisterKindToRegisterNumber( eRegisterKindGeneric, LLDB_REGNUM_GENERIC_PC); const RegisterInfo *const reg_info_p = reg_ctx.GetRegisterInfoAtIndex(reg_to_read); RegisterValue reg_value; Status error = reg_ctx.ReadRegister(reg_info_p, reg_value); if (error.Fail()) { LLDB_LOGF(log, "%s failed to read register '%s' index %" PRIu32 ": %s", __FUNCTION__, reg_info_p->name ? reg_info_p->name : "", reg_to_read, error.AsCString()); continue; } response.PutChar(delimiter); delimiter = ','; WriteRegisterValueInHexFixedWidth(response, reg_ctx, *reg_info_p, ®_value, endian::InlHostByteOrder()); } response.PutChar(';'); } // // Expedite registers. // // Grab the register context. NativeRegisterContext& reg_ctx = thread->GetRegisterContext(); const auto expedited_regs = reg_ctx.GetExpeditedRegisters(ExpeditedRegs::Full); for (auto ®_num : expedited_regs) { const RegisterInfo *const reg_info_p = reg_ctx.GetRegisterInfoAtIndex(reg_num); // Only expediate registers that are not contained in other registers. if (reg_info_p != nullptr && reg_info_p->value_regs == nullptr) { RegisterValue reg_value; Status error = reg_ctx.ReadRegister(reg_info_p, reg_value); if (error.Success()) { response.Printf("%.02x:", reg_num); WriteRegisterValueInHexFixedWidth(response, reg_ctx, *reg_info_p, ®_value, lldb::eByteOrderBig); response.PutChar(';'); } else { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed to read " "register '%s' index %" PRIu32 ": %s", __FUNCTION__, reg_info_p->name ? reg_info_p->name : "", reg_num, error.AsCString()); } } } const char *reason_str = GetStopReasonString(tid_stop_info.reason); if (reason_str != nullptr) { response.Printf("reason:%s;", reason_str); } if (!description.empty()) { // Description may contains special chars, send as hex bytes. response.PutCString("description:"); response.PutStringAsRawHex8(description); response.PutChar(';'); } else if ((tid_stop_info.reason == eStopReasonException) && tid_stop_info.details.exception.type) { response.PutCString("metype:"); response.PutHex64(tid_stop_info.details.exception.type); response.PutCString(";mecount:"); response.PutHex32(tid_stop_info.details.exception.data_count); response.PutChar(';'); for (uint32_t i = 0; i < tid_stop_info.details.exception.data_count; ++i) { response.PutCString("medata:"); response.PutHex64(tid_stop_info.details.exception.data[i]); response.PutChar(';'); } } return SendPacketNoLock(response.GetString()); } void GDBRemoteCommunicationServerLLGS::HandleInferiorState_Exited( NativeProcessProtocol *process) { assert(process && "process cannot be NULL"); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s called", __FUNCTION__); PacketResult result = SendStopReasonForState(StateType::eStateExited); if (result != PacketResult::Success) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed to send stop " "notification for PID %" PRIu64 ", state: eStateExited", __FUNCTION__, process->GetID()); } // Close the pipe to the inferior terminal i/o if we launched it and set one // up. MaybeCloseInferiorTerminalConnection(); // We are ready to exit the debug monitor. m_exit_now = true; m_mainloop.RequestTermination(); } void GDBRemoteCommunicationServerLLGS::HandleInferiorState_Stopped( NativeProcessProtocol *process) { assert(process && "process cannot be NULL"); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s called", __FUNCTION__); // Send the stop reason unless this is the stop after the launch or attach. switch (m_inferior_prev_state) { case eStateLaunching: case eStateAttaching: // Don't send anything per debugserver behavior. break; default: // In all other cases, send the stop reason. PacketResult result = SendStopReasonForState(StateType::eStateStopped); if (result != PacketResult::Success) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed to send stop " "notification for PID %" PRIu64 ", state: eStateExited", __FUNCTION__, process->GetID()); } break; } } void GDBRemoteCommunicationServerLLGS::ProcessStateChanged( NativeProcessProtocol *process, lldb::StateType state) { assert(process && "process cannot be NULL"); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (log) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s called with " "NativeProcessProtocol pid %" PRIu64 ", state: %s", __FUNCTION__, process->GetID(), StateAsCString(state)); } switch (state) { case StateType::eStateRunning: StartSTDIOForwarding(); break; case StateType::eStateStopped: // Make sure we get all of the pending stdout/stderr from the inferior and // send it to the lldb host before we send the state change notification SendProcessOutput(); // Then stop the forwarding, so that any late output (see llvm.org/pr25652) // does not interfere with our protocol. StopSTDIOForwarding(); HandleInferiorState_Stopped(process); break; case StateType::eStateExited: // Same as above SendProcessOutput(); StopSTDIOForwarding(); HandleInferiorState_Exited(process); break; default: if (log) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s didn't handle state " "change for pid %" PRIu64 ", new state: %s", __FUNCTION__, process->GetID(), StateAsCString(state)); } break; } // Remember the previous state reported to us. m_inferior_prev_state = state; } void GDBRemoteCommunicationServerLLGS::DidExec(NativeProcessProtocol *process) { ClearProcessSpecificData(); } void GDBRemoteCommunicationServerLLGS::DataAvailableCallback() { Log *log(GetLogIfAnyCategoriesSet(GDBR_LOG_COMM)); if (!m_handshake_completed) { if (!HandshakeWithClient()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s handshake with " "client failed, exiting", __FUNCTION__); m_mainloop.RequestTermination(); return; } m_handshake_completed = true; } bool interrupt = false; bool done = false; Status error; while (true) { const PacketResult result = GetPacketAndSendResponse( std::chrono::microseconds(0), error, interrupt, done); if (result == PacketResult::ErrorReplyTimeout) break; // No more packets in the queue if ((result != PacketResult::Success)) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s processing a packet " "failed: %s", __FUNCTION__, error.AsCString()); m_mainloop.RequestTermination(); break; } } } Status GDBRemoteCommunicationServerLLGS::InitializeConnection( std::unique_ptr connection) { IOObjectSP read_object_sp = connection->GetReadObject(); GDBRemoteCommunicationServer::SetConnection(std::move(connection)); Status error; m_network_handle_up = m_mainloop.RegisterReadObject( read_object_sp, [this](MainLoopBase &) { DataAvailableCallback(); }, error); return error; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::SendONotification(const char *buffer, uint32_t len) { if ((buffer == nullptr) || (len == 0)) { // Nothing to send. return PacketResult::Success; } StreamString response; response.PutChar('O'); response.PutBytesAsRawHex8(buffer, len); return SendPacketNoLock(response.GetString()); } Status GDBRemoteCommunicationServerLLGS::SetSTDIOFileDescriptor(int fd) { Status error; // Set up the reading/handling of process I/O std::unique_ptr conn_up( new ConnectionFileDescriptor(fd, true)); if (!conn_up) { error.SetErrorString("failed to create ConnectionFileDescriptor"); return error; } m_stdio_communication.SetCloseOnEOF(false); m_stdio_communication.SetConnection(std::move(conn_up)); if (!m_stdio_communication.IsConnected()) { error.SetErrorString( "failed to set connection for inferior I/O communication"); return error; } return Status(); } void GDBRemoteCommunicationServerLLGS::StartSTDIOForwarding() { // Don't forward if not connected (e.g. when attaching). if (!m_stdio_communication.IsConnected()) return; Status error; lldbassert(!m_stdio_handle_up); m_stdio_handle_up = m_mainloop.RegisterReadObject( m_stdio_communication.GetConnection()->GetReadObject(), [this](MainLoopBase &) { SendProcessOutput(); }, error); if (!m_stdio_handle_up) { // Not much we can do about the failure. Log it and continue without // forwarding. if (Log *log = GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)) LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s Failed to set up stdio " "forwarding: %s", __FUNCTION__, error.AsCString()); } } void GDBRemoteCommunicationServerLLGS::StopSTDIOForwarding() { m_stdio_handle_up.reset(); } void GDBRemoteCommunicationServerLLGS::SendProcessOutput() { char buffer[1024]; ConnectionStatus status; Status error; while (true) { size_t bytes_read = m_stdio_communication.Read( buffer, sizeof buffer, std::chrono::microseconds(0), status, &error); switch (status) { case eConnectionStatusSuccess: SendONotification(buffer, bytes_read); break; case eConnectionStatusLostConnection: case eConnectionStatusEndOfFile: case eConnectionStatusError: case eConnectionStatusNoConnection: if (Log *log = GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)) LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s Stopping stdio " "forwarding as communication returned status %d (error: " "%s)", __FUNCTION__, status, error.AsCString()); m_stdio_handle_up.reset(); return; case eConnectionStatusInterrupted: case eConnectionStatusTimedOut: return; } } } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_jTraceStart( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); if (!packet.ConsumeFront("jTraceStart:")) return SendIllFormedResponse(packet, "jTraceStart: Ill formed packet "); TraceOptions options; uint64_t type = std::numeric_limits::max(); uint64_t buffersize = std::numeric_limits::max(); lldb::tid_t tid = LLDB_INVALID_THREAD_ID; uint64_t metabuffersize = std::numeric_limits::max(); auto json_object = StructuredData::ParseJSON(packet.Peek()); if (!json_object || json_object->GetType() != lldb::eStructuredDataTypeDictionary) return SendIllFormedResponse(packet, "jTraceStart: Ill formed packet "); auto json_dict = json_object->GetAsDictionary(); json_dict->GetValueForKeyAsInteger("metabuffersize", metabuffersize); options.setMetaDataBufferSize(metabuffersize); json_dict->GetValueForKeyAsInteger("buffersize", buffersize); options.setTraceBufferSize(buffersize); json_dict->GetValueForKeyAsInteger("type", type); options.setType(static_cast(type)); json_dict->GetValueForKeyAsInteger("threadid", tid); options.setThreadID(tid); StructuredData::ObjectSP custom_params_sp = json_dict->GetValueForKey("params"); if (custom_params_sp && custom_params_sp->GetType() != lldb::eStructuredDataTypeDictionary) return SendIllFormedResponse(packet, "jTraceStart: Ill formed packet "); options.setTraceParams( std::static_pointer_cast(custom_params_sp)); if (buffersize == std::numeric_limits::max() || type != lldb::TraceType::eTraceTypeProcessorTrace) { LLDB_LOG(log, "Ill formed packet buffersize = {0} type = {1}", buffersize, type); return SendIllFormedResponse(packet, "JTrace:start: Ill formed packet "); } Status error; lldb::user_id_t uid = LLDB_INVALID_UID; uid = m_debugged_process_up->StartTrace(options, error); LLDB_LOG(log, "uid is {0} , error is {1}", uid, error.GetError()); if (error.Fail()) return SendErrorResponse(error); StreamGDBRemote response; response.Printf("%" PRIx64, uid); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_jTraceStop( StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); if (!packet.ConsumeFront("jTraceStop:")) return SendIllFormedResponse(packet, "jTraceStop: Ill formed packet "); lldb::user_id_t uid = LLDB_INVALID_UID; lldb::tid_t tid = LLDB_INVALID_THREAD_ID; auto json_object = StructuredData::ParseJSON(packet.Peek()); if (!json_object || json_object->GetType() != lldb::eStructuredDataTypeDictionary) return SendIllFormedResponse(packet, "jTraceStop: Ill formed packet "); auto json_dict = json_object->GetAsDictionary(); if (!json_dict->GetValueForKeyAsInteger("traceid", uid)) return SendIllFormedResponse(packet, "jTraceStop: Ill formed packet "); json_dict->GetValueForKeyAsInteger("threadid", tid); Status error = m_debugged_process_up->StopTrace(uid, tid); if (error.Fail()) return SendErrorResponse(error); return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_jLLDBTraceSupportedType( StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(Status("Process not running.")); llvm::Expected supported_trace_type = m_debugged_process_up->GetSupportedTraceType(); if (!supported_trace_type) return SendErrorResponse(supported_trace_type.takeError()); StreamGDBRemote escaped_response; StructuredData::Dictionary json_packet; json_packet.AddStringItem("name", supported_trace_type->name); json_packet.AddStringItem("description", supported_trace_type->description); StreamString json_string; json_packet.Dump(json_string, false); escaped_response.PutEscapedBytes(json_string.GetData(), json_string.GetSize()); return SendPacketNoLock(escaped_response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_jTraceConfigRead( StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); if (!packet.ConsumeFront("jTraceConfigRead:")) return SendIllFormedResponse(packet, "jTraceConfigRead: Ill formed packet "); lldb::user_id_t uid = LLDB_INVALID_UID; lldb::tid_t threadid = LLDB_INVALID_THREAD_ID; auto json_object = StructuredData::ParseJSON(packet.Peek()); if (!json_object || json_object->GetType() != lldb::eStructuredDataTypeDictionary) return SendIllFormedResponse(packet, "jTraceConfigRead: Ill formed packet "); auto json_dict = json_object->GetAsDictionary(); if (!json_dict->GetValueForKeyAsInteger("traceid", uid)) return SendIllFormedResponse(packet, "jTraceConfigRead: Ill formed packet "); json_dict->GetValueForKeyAsInteger("threadid", threadid); TraceOptions options; StreamGDBRemote response; options.setThreadID(threadid); Status error = m_debugged_process_up->GetTraceConfig(uid, options); if (error.Fail()) return SendErrorResponse(error); StreamGDBRemote escaped_response; StructuredData::Dictionary json_packet; json_packet.AddIntegerItem("type", options.getType()); json_packet.AddIntegerItem("buffersize", options.getTraceBufferSize()); json_packet.AddIntegerItem("metabuffersize", options.getMetaDataBufferSize()); StructuredData::DictionarySP custom_params = options.getTraceParams(); if (custom_params) json_packet.AddItem("params", custom_params); StreamString json_string; json_packet.Dump(json_string, false); escaped_response.PutEscapedBytes(json_string.GetData(), json_string.GetSize()); return SendPacketNoLock(escaped_response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_jTraceRead( StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); enum PacketType { MetaData, BufferData }; PacketType tracetype = MetaData; if (packet.ConsumeFront("jTraceBufferRead:")) tracetype = BufferData; else if (packet.ConsumeFront("jTraceMetaRead:")) tracetype = MetaData; else { return SendIllFormedResponse(packet, "jTrace: Ill formed packet "); } lldb::user_id_t uid = LLDB_INVALID_UID; uint64_t byte_count = std::numeric_limits::max(); lldb::tid_t tid = LLDB_INVALID_THREAD_ID; uint64_t offset = std::numeric_limits::max(); auto json_object = StructuredData::ParseJSON(packet.Peek()); if (!json_object || json_object->GetType() != lldb::eStructuredDataTypeDictionary) return SendIllFormedResponse(packet, "jTrace: Ill formed packet "); auto json_dict = json_object->GetAsDictionary(); if (!json_dict->GetValueForKeyAsInteger("traceid", uid) || !json_dict->GetValueForKeyAsInteger("offset", offset) || !json_dict->GetValueForKeyAsInteger("buffersize", byte_count)) return SendIllFormedResponse(packet, "jTrace: Ill formed packet "); json_dict->GetValueForKeyAsInteger("threadid", tid); // Allocate the response buffer. std::unique_ptr buffer (new (std::nothrow) uint8_t[byte_count]); if (!buffer) return SendErrorResponse(0x78); StreamGDBRemote response; Status error; llvm::MutableArrayRef buf(buffer.get(), byte_count); if (tracetype == BufferData) error = m_debugged_process_up->GetData(uid, tid, buf, offset); else if (tracetype == MetaData) error = m_debugged_process_up->GetMetaData(uid, tid, buf, offset); if (error.Fail()) return SendErrorResponse(error); for (auto i : buf) response.PutHex8(i); StreamGDBRemote escaped_response; escaped_response.PutEscapedBytes(response.GetData(), response.GetSize()); return SendPacketNoLock(escaped_response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qProcessInfo( StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); lldb::pid_t pid = m_debugged_process_up->GetID(); if (pid == LLDB_INVALID_PROCESS_ID) return SendErrorResponse(1); ProcessInstanceInfo proc_info; if (!Host::GetProcessInfo(pid, proc_info)) return SendErrorResponse(1); StreamString response; CreateProcessInfoResponse_DebugServerStyle(proc_info, response); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qC(StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); // Make sure we set the current thread so g and p packets return the data the // gdb will expect. lldb::tid_t tid = m_debugged_process_up->GetCurrentThreadID(); SetCurrentThreadID(tid); NativeThreadProtocol *thread = m_debugged_process_up->GetCurrentThread(); if (!thread) return SendErrorResponse(69); StreamString response; response.Printf("QC%" PRIx64, thread->GetID()); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_k(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); StopSTDIOForwarding(); if (!m_debugged_process_up) { LLDB_LOG(log, "No debugged process found."); return PacketResult::Success; } Status error = m_debugged_process_up->Kill(); if (error.Fail()) LLDB_LOG(log, "Failed to kill debugged process {0}: {1}", m_debugged_process_up->GetID(), error); // No OK response for kill packet. // return SendOKResponse (); return PacketResult::Success; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_QSetDisableASLR( StringExtractorGDBRemote &packet) { packet.SetFilePos(::strlen("QSetDisableASLR:")); if (packet.GetU32(0)) m_process_launch_info.GetFlags().Set(eLaunchFlagDisableASLR); else m_process_launch_info.GetFlags().Clear(eLaunchFlagDisableASLR); return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_QSetWorkingDir( StringExtractorGDBRemote &packet) { packet.SetFilePos(::strlen("QSetWorkingDir:")); std::string path; packet.GetHexByteString(path); m_process_launch_info.SetWorkingDirectory(FileSpec(path)); return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qGetWorkingDir( StringExtractorGDBRemote &packet) { FileSpec working_dir{m_process_launch_info.GetWorkingDirectory()}; if (working_dir) { StreamString response; response.PutStringAsRawHex8(working_dir.GetCString()); return SendPacketNoLock(response.GetString()); } return SendErrorResponse(14); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_C(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s called", __FUNCTION__); // Ensure we have a native process. if (!m_debugged_process_up) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s no debugged process " "shared pointer", __FUNCTION__); return SendErrorResponse(0x36); } // Pull out the signal number. packet.SetFilePos(::strlen("C")); if (packet.GetBytesLeft() < 1) { // Shouldn't be using a C without a signal. return SendIllFormedResponse(packet, "C packet specified without signal."); } const uint32_t signo = packet.GetHexMaxU32(false, std::numeric_limits::max()); if (signo == std::numeric_limits::max()) return SendIllFormedResponse(packet, "failed to parse signal number"); // Handle optional continue address. if (packet.GetBytesLeft() > 0) { // FIXME add continue at address support for $C{signo}[;{continue-address}]. if (*packet.Peek() == ';') return SendUnimplementedResponse(packet.GetStringRef().data()); else return SendIllFormedResponse( packet, "unexpected content after $C{signal-number}"); } ResumeActionList resume_actions(StateType::eStateRunning, LLDB_INVALID_SIGNAL_NUMBER); Status error; // We have two branches: what to do if a continue thread is specified (in // which case we target sending the signal to that thread), or when we don't // have a continue thread set (in which case we send a signal to the // process). // TODO discuss with Greg Clayton, make sure this makes sense. lldb::tid_t signal_tid = GetContinueThreadID(); if (signal_tid != LLDB_INVALID_THREAD_ID) { // The resume action for the continue thread (or all threads if a continue // thread is not set). ResumeAction action = {GetContinueThreadID(), StateType::eStateRunning, static_cast(signo)}; // Add the action for the continue thread (or all threads when the continue // thread isn't present). resume_actions.Append(action); } else { // Send the signal to the process since we weren't targeting a specific // continue thread with the signal. error = m_debugged_process_up->Signal(signo); if (error.Fail()) { LLDB_LOG(log, "failed to send signal for process {0}: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(0x52); } } // Resume the threads. error = m_debugged_process_up->Resume(resume_actions); if (error.Fail()) { LLDB_LOG(log, "failed to resume threads for process {0}: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(0x38); } // Don't send an "OK" packet; response is the stopped/exited message. return PacketResult::Success; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_c(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s called", __FUNCTION__); packet.SetFilePos(packet.GetFilePos() + ::strlen("c")); // For now just support all continue. const bool has_continue_address = (packet.GetBytesLeft() > 0); if (has_continue_address) { LLDB_LOG(log, "not implemented for c[address] variant [{0} remains]", packet.Peek()); return SendUnimplementedResponse(packet.GetStringRef().data()); } // Ensure we have a native process. if (!m_debugged_process_up) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s no debugged process " "shared pointer", __FUNCTION__); return SendErrorResponse(0x36); } // Build the ResumeActionList ResumeActionList actions(StateType::eStateRunning, LLDB_INVALID_SIGNAL_NUMBER); Status error = m_debugged_process_up->Resume(actions); if (error.Fail()) { LLDB_LOG(log, "c failed for process {0}: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(GDBRemoteServerError::eErrorResume); } LLDB_LOG(log, "continued process {0}", m_debugged_process_up->GetID()); // No response required from continue. return PacketResult::Success; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_vCont_actions( StringExtractorGDBRemote &packet) { StreamString response; response.Printf("vCont;c;C;s;S"); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_vCont( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s handling vCont packet", __FUNCTION__); packet.SetFilePos(::strlen("vCont")); if (packet.GetBytesLeft() == 0) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s missing action from " "vCont package", __FUNCTION__); return SendIllFormedResponse(packet, "Missing action from vCont package"); } // Check if this is all continue (no options or ";c"). if (::strcmp(packet.Peek(), ";c") == 0) { // Move past the ';', then do a simple 'c'. packet.SetFilePos(packet.GetFilePos() + 1); return Handle_c(packet); } else if (::strcmp(packet.Peek(), ";s") == 0) { // Move past the ';', then do a simple 's'. packet.SetFilePos(packet.GetFilePos() + 1); return Handle_s(packet); } // Ensure we have a native process. if (!m_debugged_process_up) { LLDB_LOG(log, "no debugged process"); return SendErrorResponse(0x36); } ResumeActionList thread_actions; while (packet.GetBytesLeft() && *packet.Peek() == ';') { // Skip the semi-colon. packet.GetChar(); // Build up the thread action. ResumeAction thread_action; thread_action.tid = LLDB_INVALID_THREAD_ID; thread_action.state = eStateInvalid; thread_action.signal = LLDB_INVALID_SIGNAL_NUMBER; const char action = packet.GetChar(); switch (action) { case 'C': thread_action.signal = packet.GetHexMaxU32(false, 0); if (thread_action.signal == 0) return SendIllFormedResponse( packet, "Could not parse signal in vCont packet C action"); LLVM_FALLTHROUGH; case 'c': // Continue thread_action.state = eStateRunning; break; case 'S': thread_action.signal = packet.GetHexMaxU32(false, 0); if (thread_action.signal == 0) return SendIllFormedResponse( packet, "Could not parse signal in vCont packet S action"); LLVM_FALLTHROUGH; case 's': // Step thread_action.state = eStateStepping; break; default: return SendIllFormedResponse(packet, "Unsupported vCont action"); break; } // Parse out optional :{thread-id} value. if (packet.GetBytesLeft() && (*packet.Peek() == ':')) { // Consume the separator. packet.GetChar(); thread_action.tid = packet.GetHexMaxU32(false, LLDB_INVALID_THREAD_ID); if (thread_action.tid == LLDB_INVALID_THREAD_ID) return SendIllFormedResponse( packet, "Could not parse thread number in vCont packet"); } thread_actions.Append(thread_action); } Status error = m_debugged_process_up->Resume(thread_actions); if (error.Fail()) { LLDB_LOG(log, "vCont failed for process {0}: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(GDBRemoteServerError::eErrorResume); } LLDB_LOG(log, "continued process {0}", m_debugged_process_up->GetID()); // No response required from vCont. return PacketResult::Success; } void GDBRemoteCommunicationServerLLGS::SetCurrentThreadID(lldb::tid_t tid) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); LLDB_LOG(log, "setting current thread id to {0}", tid); m_current_tid = tid; if (m_debugged_process_up) m_debugged_process_up->SetCurrentThreadID(m_current_tid); } void GDBRemoteCommunicationServerLLGS::SetContinueThreadID(lldb::tid_t tid) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); LLDB_LOG(log, "setting continue thread id to {0}", tid); m_continue_tid = tid; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_stop_reason( StringExtractorGDBRemote &packet) { // Handle the $? gdbremote command. // If no process, indicate error if (!m_debugged_process_up) return SendErrorResponse(02); return SendStopReasonForState(m_debugged_process_up->GetState()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::SendStopReasonForState( lldb::StateType process_state) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); switch (process_state) { case eStateAttaching: case eStateLaunching: case eStateRunning: case eStateStepping: case eStateDetached: // NOTE: gdb protocol doc looks like it should return $OK // when everything is running (i.e. no stopped result). return PacketResult::Success; // Ignore case eStateSuspended: case eStateStopped: case eStateCrashed: { assert(m_debugged_process_up != nullptr); lldb::tid_t tid = m_debugged_process_up->GetCurrentThreadID(); // Make sure we set the current thread so g and p packets return the data // the gdb will expect. SetCurrentThreadID(tid); return SendStopReplyPacketForThread(tid); } case eStateInvalid: case eStateUnloaded: case eStateExited: return SendWResponse(m_debugged_process_up.get()); default: LLDB_LOG(log, "pid {0}, current state reporting not handled: {1}", m_debugged_process_up->GetID(), process_state); break; } return SendErrorResponse(0); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qRegisterInfo( StringExtractorGDBRemote &packet) { // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) return SendErrorResponse(68); // Ensure we have a thread. NativeThreadProtocol *thread = m_debugged_process_up->GetThreadAtIndex(0); if (!thread) return SendErrorResponse(69); // Get the register context for the first thread. NativeRegisterContext ®_context = thread->GetRegisterContext(); // Parse out the register number from the request. packet.SetFilePos(strlen("qRegisterInfo")); const uint32_t reg_index = packet.GetHexMaxU32(false, std::numeric_limits::max()); if (reg_index == std::numeric_limits::max()) return SendErrorResponse(69); // Return the end of registers response if we've iterated one past the end of // the register set. if (reg_index >= reg_context.GetUserRegisterCount()) return SendErrorResponse(69); const RegisterInfo *reg_info = reg_context.GetRegisterInfoAtIndex(reg_index); if (!reg_info) return SendErrorResponse(69); // Build the reginfos response. StreamGDBRemote response; response.PutCString("name:"); response.PutCString(reg_info->name); response.PutChar(';'); if (reg_info->alt_name && reg_info->alt_name[0]) { response.PutCString("alt-name:"); response.PutCString(reg_info->alt_name); response.PutChar(';'); } response.Printf("bitsize:%" PRIu32 ";", reg_info->byte_size * 8); if (!reg_context.RegisterOffsetIsDynamic()) response.Printf("offset:%" PRIu32 ";", reg_info->byte_offset); llvm::StringRef encoding = GetEncodingNameOrEmpty(*reg_info); if (!encoding.empty()) response << "encoding:" << encoding << ';'; llvm::StringRef format = GetFormatNameOrEmpty(*reg_info); if (!format.empty()) response << "format:" << format << ';'; const char *const register_set_name = reg_context.GetRegisterSetNameForRegisterAtIndex(reg_index); if (register_set_name) response << "set:" << register_set_name << ';'; if (reg_info->kinds[RegisterKind::eRegisterKindEHFrame] != LLDB_INVALID_REGNUM) response.Printf("ehframe:%" PRIu32 ";", reg_info->kinds[RegisterKind::eRegisterKindEHFrame]); if (reg_info->kinds[RegisterKind::eRegisterKindDWARF] != LLDB_INVALID_REGNUM) response.Printf("dwarf:%" PRIu32 ";", reg_info->kinds[RegisterKind::eRegisterKindDWARF]); llvm::StringRef kind_generic = GetKindGenericOrEmpty(*reg_info); if (!kind_generic.empty()) response << "generic:" << kind_generic << ';'; if (reg_info->value_regs && reg_info->value_regs[0] != LLDB_INVALID_REGNUM) { response.PutCString("container-regs:"); CollectRegNums(reg_info->value_regs, response, true); response.PutChar(';'); } if (reg_info->invalidate_regs && reg_info->invalidate_regs[0]) { response.PutCString("invalidate-regs:"); CollectRegNums(reg_info->invalidate_regs, response, true); response.PutChar(';'); } if (reg_info->dynamic_size_dwarf_expr_bytes) { const size_t dwarf_opcode_len = reg_info->dynamic_size_dwarf_len; response.PutCString("dynamic_size_dwarf_expr_bytes:"); for (uint32_t i = 0; i < dwarf_opcode_len; ++i) response.PutHex8(reg_info->dynamic_size_dwarf_expr_bytes[i]); response.PutChar(';'); } return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qfThreadInfo( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOG(log, "no process ({0}), returning OK", m_debugged_process_up ? "invalid process id" : "null m_debugged_process_up"); return SendOKResponse(); } StreamGDBRemote response; response.PutChar('m'); LLDB_LOG(log, "starting thread iteration"); NativeThreadProtocol *thread; uint32_t thread_index; for (thread_index = 0, thread = m_debugged_process_up->GetThreadAtIndex(thread_index); thread; ++thread_index, thread = m_debugged_process_up->GetThreadAtIndex(thread_index)) { LLDB_LOG(log, "iterated thread {0}(tid={2})", thread_index, thread->GetID()); if (thread_index > 0) response.PutChar(','); response.Printf("%" PRIx64, thread->GetID()); } LLDB_LOG(log, "finished thread iteration"); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qsThreadInfo( StringExtractorGDBRemote &packet) { // FIXME for now we return the full thread list in the initial packet and // always do nothing here. return SendPacketNoLock("l"); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_g(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); // Move past packet name. packet.SetFilePos(strlen("g")); // Get the thread to use. NativeThreadProtocol *thread = GetThreadFromSuffix(packet); if (!thread) { LLDB_LOG(log, "failed, no thread available"); return SendErrorResponse(0x15); } // Get the thread's register context. NativeRegisterContext ®_ctx = thread->GetRegisterContext(); std::vector regs_buffer; for (uint32_t reg_num = 0; reg_num < reg_ctx.GetUserRegisterCount(); ++reg_num) { const RegisterInfo *reg_info = reg_ctx.GetRegisterInfoAtIndex(reg_num); if (reg_info == nullptr) { LLDB_LOG(log, "failed to get register info for register index {0}", reg_num); return SendErrorResponse(0x15); } if (reg_info->value_regs != nullptr) continue; // skip registers that are contained in other registers RegisterValue reg_value; Status error = reg_ctx.ReadRegister(reg_info, reg_value); if (error.Fail()) { LLDB_LOG(log, "failed to read register at index {0}", reg_num); return SendErrorResponse(0x15); } if (reg_info->byte_offset + reg_info->byte_size >= regs_buffer.size()) // Resize the buffer to guarantee it can store the register offsetted // data. regs_buffer.resize(reg_info->byte_offset + reg_info->byte_size); // Copy the register offsetted data to the buffer. memcpy(regs_buffer.data() + reg_info->byte_offset, reg_value.GetBytes(), reg_info->byte_size); } // Write the response. StreamGDBRemote response; response.PutBytesAsRawHex8(regs_buffer.data(), regs_buffer.size()); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_p(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); // Parse out the register number from the request. packet.SetFilePos(strlen("p")); const uint32_t reg_index = packet.GetHexMaxU32(false, std::numeric_limits::max()); if (reg_index == std::numeric_limits::max()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, could not " "parse register number from request \"%s\"", __FUNCTION__, packet.GetStringRef().data()); return SendErrorResponse(0x15); } // Get the thread to use. NativeThreadProtocol *thread = GetThreadFromSuffix(packet); if (!thread) { LLDB_LOG(log, "failed, no thread available"); return SendErrorResponse(0x15); } // Get the thread's register context. NativeRegisterContext ®_context = thread->GetRegisterContext(); // Return the end of registers response if we've iterated one past the end of // the register set. if (reg_index >= reg_context.GetUserRegisterCount()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, requested " "register %" PRIu32 " beyond register count %" PRIu32, __FUNCTION__, reg_index, reg_context.GetUserRegisterCount()); return SendErrorResponse(0x15); } const RegisterInfo *reg_info = reg_context.GetRegisterInfoAtIndex(reg_index); if (!reg_info) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, requested " "register %" PRIu32 " returned NULL", __FUNCTION__, reg_index); return SendErrorResponse(0x15); } // Build the reginfos response. StreamGDBRemote response; // Retrieve the value RegisterValue reg_value; Status error = reg_context.ReadRegister(reg_info, reg_value); if (error.Fail()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, read of " "requested register %" PRIu32 " (%s) failed: %s", __FUNCTION__, reg_index, reg_info->name, error.AsCString()); return SendErrorResponse(0x15); } const uint8_t *const data = static_cast(reg_value.GetBytes()); if (!data) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed to get data " "bytes from requested register %" PRIu32, __FUNCTION__, reg_index); return SendErrorResponse(0x15); } // FIXME flip as needed to get data in big/little endian format for this host. for (uint32_t i = 0; i < reg_value.GetByteSize(); ++i) response.PutHex8(data[i]); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_P(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); // Ensure there is more content. if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Empty P packet"); // Parse out the register number from the request. packet.SetFilePos(strlen("P")); const uint32_t reg_index = packet.GetHexMaxU32(false, std::numeric_limits::max()); if (reg_index == std::numeric_limits::max()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, could not " "parse register number from request \"%s\"", __FUNCTION__, packet.GetStringRef().data()); return SendErrorResponse(0x29); } // Note debugserver would send an E30 here. if ((packet.GetBytesLeft() < 1) || (packet.GetChar() != '=')) return SendIllFormedResponse( packet, "P packet missing '=' char after register number"); // Parse out the value. uint8_t reg_bytes[RegisterValue::kMaxRegisterByteSize]; size_t reg_size = packet.GetHexBytesAvail(reg_bytes); // Get the thread to use. NativeThreadProtocol *thread = GetThreadFromSuffix(packet); if (!thread) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, no thread " "available (thread index 0)", __FUNCTION__); return SendErrorResponse(0x28); } // Get the thread's register context. NativeRegisterContext ®_context = thread->GetRegisterContext(); const RegisterInfo *reg_info = reg_context.GetRegisterInfoAtIndex(reg_index); if (!reg_info) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, requested " "register %" PRIu32 " returned NULL", __FUNCTION__, reg_index); return SendErrorResponse(0x48); } // Return the end of registers response if we've iterated one past the end of // the register set. if (reg_index >= reg_context.GetUserRegisterCount()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, requested " "register %" PRIu32 " beyond register count %" PRIu32, __FUNCTION__, reg_index, reg_context.GetUserRegisterCount()); return SendErrorResponse(0x47); } // The dwarf expression are evaluate on host site which may cause register // size to change Hence the reg_size may not be same as reg_info->bytes_size if ((reg_size != reg_info->byte_size) && !(reg_info->dynamic_size_dwarf_expr_bytes)) { return SendIllFormedResponse(packet, "P packet register size is incorrect"); } // Build the reginfos response. StreamGDBRemote response; RegisterValue reg_value( makeArrayRef(reg_bytes, reg_size), m_debugged_process_up->GetArchitecture().GetByteOrder()); Status error = reg_context.WriteRegister(reg_info, reg_value); if (error.Fail()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, write of " "requested register %" PRIu32 " (%s) failed: %s", __FUNCTION__, reg_index, reg_info->name, error.AsCString()); return SendErrorResponse(0x32); } return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_H(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Parse out which variant of $H is requested. packet.SetFilePos(strlen("H")); if (packet.GetBytesLeft() < 1) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, H command " "missing {g,c} variant", __FUNCTION__); return SendIllFormedResponse(packet, "H command missing {g,c} variant"); } const char h_variant = packet.GetChar(); switch (h_variant) { case 'g': break; case 'c': break; default: LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, invalid $H variant %c", __FUNCTION__, h_variant); return SendIllFormedResponse(packet, "H variant unsupported, should be c or g"); } // Parse out the thread number. // FIXME return a parse success/fail value. All values are valid here. const lldb::tid_t tid = packet.GetHexMaxU64(false, std::numeric_limits::max()); // Ensure we have the given thread when not specifying -1 (all threads) or 0 // (any thread). if (tid != LLDB_INVALID_THREAD_ID && tid != 0) { NativeThreadProtocol *thread = m_debugged_process_up->GetThreadByID(tid); if (!thread) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s failed, tid %" PRIu64 " not found", __FUNCTION__, tid); return SendErrorResponse(0x15); } } // Now switch the given thread type. switch (h_variant) { case 'g': SetCurrentThreadID(tid); break; case 'c': SetContinueThreadID(tid); break; default: assert(false && "unsupported $H variant - shouldn't get here"); return SendIllFormedResponse(packet, "H variant unsupported, should be c or g"); } return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_I(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_THREAD)); // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } packet.SetFilePos(::strlen("I")); uint8_t tmp[4096]; for (;;) { size_t read = packet.GetHexBytesAvail(tmp); if (read == 0) { break; } // write directly to stdin *this might block if stdin buffer is full* // TODO: enqueue this block in circular buffer and send window size to // remote host ConnectionStatus status; Status error; m_stdio_communication.Write(tmp, read, status, &error); if (error.Fail()) { return SendErrorResponse(0x15); } } return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_interrupt( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); // Fail if we don't have a current process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOG(log, "failed, no process available"); return SendErrorResponse(0x15); } // Interrupt the process. Status error = m_debugged_process_up->Interrupt(); if (error.Fail()) { LLDB_LOG(log, "failed for process {0}: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(GDBRemoteServerError::eErrorResume); } LLDB_LOG(log, "stopped process {0}", m_debugged_process_up->GetID()); // No response required from stop all. return PacketResult::Success; } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_memory_read( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Parse out the memory address. packet.SetFilePos(strlen("m")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short m packet"); // Read the address. Punting on validation. // FIXME replace with Hex U64 read with no default value that fails on failed // read. const lldb::addr_t read_addr = packet.GetHexMaxU64(false, 0); // Validate comma. if ((packet.GetBytesLeft() < 1) || (packet.GetChar() != ',')) return SendIllFormedResponse(packet, "Comma sep missing in m packet"); // Get # bytes to read. if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Length missing in m packet"); const uint64_t byte_count = packet.GetHexMaxU64(false, 0); if (byte_count == 0) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s nothing to read: " "zero-length packet", __FUNCTION__); return SendOKResponse(); } // Allocate the response buffer. std::string buf(byte_count, '\0'); if (buf.empty()) return SendErrorResponse(0x78); // Retrieve the process memory. size_t bytes_read = 0; Status error = m_debugged_process_up->ReadMemoryWithoutTrap( read_addr, &buf[0], byte_count, bytes_read); if (error.Fail()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s pid %" PRIu64 " mem 0x%" PRIx64 ": failed to read. Error: %s", __FUNCTION__, m_debugged_process_up->GetID(), read_addr, error.AsCString()); return SendErrorResponse(0x08); } if (bytes_read == 0) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s pid %" PRIu64 " mem 0x%" PRIx64 ": read 0 of %" PRIu64 " requested bytes", __FUNCTION__, m_debugged_process_up->GetID(), read_addr, byte_count); return SendErrorResponse(0x08); } StreamGDBRemote response; packet.SetFilePos(0); char kind = packet.GetChar('?'); if (kind == 'x') response.PutEscapedBytes(buf.data(), byte_count); else { assert(kind == 'm'); for (size_t i = 0; i < bytes_read; ++i) response.PutHex8(buf[i]); } return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle__M(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Parse out the memory address. packet.SetFilePos(strlen("_M")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short _M packet"); const lldb::addr_t size = packet.GetHexMaxU64(false, LLDB_INVALID_ADDRESS); if (size == LLDB_INVALID_ADDRESS) return SendIllFormedResponse(packet, "Address not valid"); if (packet.GetChar() != ',') return SendIllFormedResponse(packet, "Bad packet"); Permissions perms = {}; while (packet.GetBytesLeft() > 0) { switch (packet.GetChar()) { case 'r': perms |= ePermissionsReadable; break; case 'w': perms |= ePermissionsWritable; break; case 'x': perms |= ePermissionsExecutable; break; default: return SendIllFormedResponse(packet, "Bad permissions"); } } llvm::Expected addr = m_debugged_process_up->AllocateMemory(size, perms); if (!addr) return SendErrorResponse(addr.takeError()); StreamGDBRemote response; response.PutHex64(*addr); return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle__m(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Parse out the memory address. packet.SetFilePos(strlen("_m")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short m packet"); const lldb::addr_t addr = packet.GetHexMaxU64(false, LLDB_INVALID_ADDRESS); if (addr == LLDB_INVALID_ADDRESS) return SendIllFormedResponse(packet, "Address not valid"); if (llvm::Error Err = m_debugged_process_up->DeallocateMemory(addr)) return SendErrorResponse(std::move(Err)); return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_M(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Parse out the memory address. packet.SetFilePos(strlen("M")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short M packet"); // Read the address. Punting on validation. // FIXME replace with Hex U64 read with no default value that fails on failed // read. const lldb::addr_t write_addr = packet.GetHexMaxU64(false, 0); // Validate comma. if ((packet.GetBytesLeft() < 1) || (packet.GetChar() != ',')) return SendIllFormedResponse(packet, "Comma sep missing in M packet"); // Get # bytes to read. if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Length missing in M packet"); const uint64_t byte_count = packet.GetHexMaxU64(false, 0); if (byte_count == 0) { LLDB_LOG(log, "nothing to write: zero-length packet"); return PacketResult::Success; } // Validate colon. if ((packet.GetBytesLeft() < 1) || (packet.GetChar() != ':')) return SendIllFormedResponse( packet, "Comma sep missing in M packet after byte length"); // Allocate the conversion buffer. std::vector buf(byte_count, 0); if (buf.empty()) return SendErrorResponse(0x78); // Convert the hex memory write contents to bytes. StreamGDBRemote response; const uint64_t convert_count = packet.GetHexBytes(buf, 0); if (convert_count != byte_count) { LLDB_LOG(log, "pid {0} mem {1:x}: asked to write {2} bytes, but only found {3} " "to convert.", m_debugged_process_up->GetID(), write_addr, byte_count, convert_count); return SendIllFormedResponse(packet, "M content byte length specified did " "not match hex-encoded content " "length"); } // Write the process memory. size_t bytes_written = 0; Status error = m_debugged_process_up->WriteMemory(write_addr, &buf[0], byte_count, bytes_written); if (error.Fail()) { LLDB_LOG(log, "pid {0} mem {1:x}: failed to write. Error: {2}", m_debugged_process_up->GetID(), write_addr, error); return SendErrorResponse(0x09); } if (bytes_written == 0) { LLDB_LOG(log, "pid {0} mem {1:x}: wrote 0 of {2} requested bytes", m_debugged_process_up->GetID(), write_addr, byte_count); return SendErrorResponse(0x09); } return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qMemoryRegionInfoSupported( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); // Currently only the NativeProcessProtocol knows if it can handle a // qMemoryRegionInfoSupported request, but we're not guaranteed to be // attached to a process. For now we'll assume the client only asks this // when a process is being debugged. // Ensure we have a process running; otherwise, we can't figure this out // since we won't have a NativeProcessProtocol. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Test if we can get any region back when asking for the region around NULL. MemoryRegionInfo region_info; const Status error = m_debugged_process_up->GetMemoryRegionInfo(0, region_info); if (error.Fail()) { // We don't support memory region info collection for this // NativeProcessProtocol. return SendUnimplementedResponse(""); } return SendOKResponse(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qMemoryRegionInfo( StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); // Ensure we have a process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x15); } // Parse out the memory address. packet.SetFilePos(strlen("qMemoryRegionInfo:")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short qMemoryRegionInfo: packet"); // Read the address. Punting on validation. const lldb::addr_t read_addr = packet.GetHexMaxU64(false, 0); StreamGDBRemote response; // Get the memory region info for the target address. MemoryRegionInfo region_info; const Status error = m_debugged_process_up->GetMemoryRegionInfo(read_addr, region_info); if (error.Fail()) { // Return the error message. response.PutCString("error:"); response.PutStringAsRawHex8(error.AsCString()); response.PutChar(';'); } else { // Range start and size. response.Printf("start:%" PRIx64 ";size:%" PRIx64 ";", region_info.GetRange().GetRangeBase(), region_info.GetRange().GetByteSize()); // Permissions. if (region_info.GetReadable() || region_info.GetWritable() || region_info.GetExecutable()) { // Write permissions info. response.PutCString("permissions:"); if (region_info.GetReadable()) response.PutChar('r'); if (region_info.GetWritable()) response.PutChar('w'); if (region_info.GetExecutable()) response.PutChar('x'); response.PutChar(';'); } // Flags MemoryRegionInfo::OptionalBool memory_tagged = region_info.GetMemoryTagged(); if (memory_tagged != MemoryRegionInfo::eDontKnow) { response.PutCString("flags:"); if (memory_tagged == MemoryRegionInfo::eYes) { response.PutCString("mt"); } response.PutChar(';'); } // Name ConstString name = region_info.GetName(); if (name) { response.PutCString("name:"); response.PutStringAsRawHex8(name.GetStringRef()); response.PutChar(';'); } } return SendPacketNoLock(response.GetString()); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_Z(StringExtractorGDBRemote &packet) { // Ensure we have a process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); LLDB_LOG(log, "failed, no process available"); return SendErrorResponse(0x15); } // Parse out software or hardware breakpoint or watchpoint requested. packet.SetFilePos(strlen("Z")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse( packet, "Too short Z packet, missing software/hardware specifier"); bool want_breakpoint = true; bool want_hardware = false; uint32_t watch_flags = 0; const GDBStoppointType stoppoint_type = GDBStoppointType(packet.GetS32(eStoppointInvalid)); switch (stoppoint_type) { case eBreakpointSoftware: want_hardware = false; want_breakpoint = true; break; case eBreakpointHardware: want_hardware = true; want_breakpoint = true; break; case eWatchpointWrite: watch_flags = 1; want_hardware = true; want_breakpoint = false; break; case eWatchpointRead: watch_flags = 2; want_hardware = true; want_breakpoint = false; break; case eWatchpointReadWrite: watch_flags = 3; want_hardware = true; want_breakpoint = false; break; case eStoppointInvalid: return SendIllFormedResponse( packet, "Z packet had invalid software/hardware specifier"); } if ((packet.GetBytesLeft() < 1) || packet.GetChar() != ',') return SendIllFormedResponse( packet, "Malformed Z packet, expecting comma after stoppoint type"); // Parse out the stoppoint address. if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short Z packet, missing address"); const lldb::addr_t addr = packet.GetHexMaxU64(false, 0); if ((packet.GetBytesLeft() < 1) || packet.GetChar() != ',') return SendIllFormedResponse( packet, "Malformed Z packet, expecting comma after address"); // Parse out the stoppoint size (i.e. size hint for opcode size). const uint32_t size = packet.GetHexMaxU32(false, std::numeric_limits::max()); if (size == std::numeric_limits::max()) return SendIllFormedResponse( packet, "Malformed Z packet, failed to parse size argument"); if (want_breakpoint) { // Try to set the breakpoint. const Status error = m_debugged_process_up->SetBreakpoint(addr, size, want_hardware); if (error.Success()) return SendOKResponse(); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_BREAKPOINTS)); LLDB_LOG(log, "pid {0} failed to set breakpoint: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(0x09); } else { // Try to set the watchpoint. const Status error = m_debugged_process_up->SetWatchpoint( addr, size, watch_flags, want_hardware); if (error.Success()) return SendOKResponse(); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_WATCHPOINTS)); LLDB_LOG(log, "pid {0} failed to set watchpoint: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(0x09); } } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_z(StringExtractorGDBRemote &packet) { // Ensure we have a process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS)); LLDB_LOG(log, "failed, no process available"); return SendErrorResponse(0x15); } // Parse out software or hardware breakpoint or watchpoint requested. packet.SetFilePos(strlen("z")); if (packet.GetBytesLeft() < 1) return SendIllFormedResponse( packet, "Too short z packet, missing software/hardware specifier"); bool want_breakpoint = true; bool want_hardware = false; const GDBStoppointType stoppoint_type = GDBStoppointType(packet.GetS32(eStoppointInvalid)); switch (stoppoint_type) { case eBreakpointHardware: want_breakpoint = true; want_hardware = true; break; case eBreakpointSoftware: want_breakpoint = true; break; case eWatchpointWrite: want_breakpoint = false; break; case eWatchpointRead: want_breakpoint = false; break; case eWatchpointReadWrite: want_breakpoint = false; break; default: return SendIllFormedResponse( packet, "z packet had invalid software/hardware specifier"); } if ((packet.GetBytesLeft() < 1) || packet.GetChar() != ',') return SendIllFormedResponse( packet, "Malformed z packet, expecting comma after stoppoint type"); // Parse out the stoppoint address. if (packet.GetBytesLeft() < 1) return SendIllFormedResponse(packet, "Too short z packet, missing address"); const lldb::addr_t addr = packet.GetHexMaxU64(false, 0); if ((packet.GetBytesLeft() < 1) || packet.GetChar() != ',') return SendIllFormedResponse( packet, "Malformed z packet, expecting comma after address"); /* // Parse out the stoppoint size (i.e. size hint for opcode size). const uint32_t size = packet.GetHexMaxU32 (false, std::numeric_limits::max ()); if (size == std::numeric_limits::max ()) return SendIllFormedResponse(packet, "Malformed z packet, failed to parse size argument"); */ if (want_breakpoint) { // Try to clear the breakpoint. const Status error = m_debugged_process_up->RemoveBreakpoint(addr, want_hardware); if (error.Success()) return SendOKResponse(); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_BREAKPOINTS)); LLDB_LOG(log, "pid {0} failed to remove breakpoint: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(0x09); } else { // Try to clear the watchpoint. const Status error = m_debugged_process_up->RemoveWatchpoint(addr); if (error.Success()) return SendOKResponse(); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_WATCHPOINTS)); LLDB_LOG(log, "pid {0} failed to remove watchpoint: {1}", m_debugged_process_up->GetID(), error); return SendErrorResponse(0x09); } } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_s(StringExtractorGDBRemote &packet) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); // Ensure we have a process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { LLDB_LOGF( log, "GDBRemoteCommunicationServerLLGS::%s failed, no process available", __FUNCTION__); return SendErrorResponse(0x32); } // We first try to use a continue thread id. If any one or any all set, use // the current thread. Bail out if we don't have a thread id. lldb::tid_t tid = GetContinueThreadID(); if (tid == 0 || tid == LLDB_INVALID_THREAD_ID) tid = GetCurrentThreadID(); if (tid == LLDB_INVALID_THREAD_ID) return SendErrorResponse(0x33); // Double check that we have such a thread. // TODO investigate: on MacOSX we might need to do an UpdateThreads () here. NativeThreadProtocol *thread = m_debugged_process_up->GetThreadByID(tid); if (!thread) return SendErrorResponse(0x33); // Create the step action for the given thread. ResumeAction action = {tid, eStateStepping, LLDB_INVALID_SIGNAL_NUMBER}; // Setup the actions list. ResumeActionList actions; actions.Append(action); // All other threads stop while we're single stepping a thread. actions.SetDefaultThreadActionIfNeeded(eStateStopped, 0); Status error = m_debugged_process_up->Resume(actions); if (error.Fail()) { LLDB_LOGF(log, "GDBRemoteCommunicationServerLLGS::%s pid %" PRIu64 " tid %" PRIu64 " Resume() failed with error: %s", __FUNCTION__, m_debugged_process_up->GetID(), tid, error.AsCString()); return SendErrorResponse(0x49); } // No response here - the stop or exit will come from the resulting action. return PacketResult::Success; } llvm::Expected> GDBRemoteCommunicationServerLLGS::BuildTargetXml() { // Ensure we have a thread. NativeThreadProtocol *thread = m_debugged_process_up->GetThreadAtIndex(0); if (!thread) return llvm::createStringError(llvm::inconvertibleErrorCode(), "No thread available"); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PROCESS | LIBLLDB_LOG_THREAD)); // Get the register context for the first thread. NativeRegisterContext ®_context = thread->GetRegisterContext(); StreamString response; response.Printf(""); response.Printf(""); response.Printf("%s", m_debugged_process_up->GetArchitecture() .GetTriple() .getArchName() .str() .c_str()); response.Printf(""); const int registers_count = reg_context.GetUserRegisterCount(); for (int reg_index = 0; reg_index < registers_count; reg_index++) { const RegisterInfo *reg_info = reg_context.GetRegisterInfoAtIndex(reg_index); if (!reg_info) { LLDB_LOGF(log, "%s failed to get register info for register index %" PRIu32, "target.xml", reg_index); continue; } response.Printf("name, reg_info->byte_size * 8, reg_index); if (!reg_context.RegisterOffsetIsDynamic()) response.Printf("offset=\"%" PRIu32 "\" ", reg_info->byte_offset); if (reg_info->alt_name && reg_info->alt_name[0]) response.Printf("altname=\"%s\" ", reg_info->alt_name); llvm::StringRef encoding = GetEncodingNameOrEmpty(*reg_info); if (!encoding.empty()) response << "encoding=\"" << encoding << "\" "; llvm::StringRef format = GetFormatNameOrEmpty(*reg_info); if (!format.empty()) response << "format=\"" << format << "\" "; const char *const register_set_name = reg_context.GetRegisterSetNameForRegisterAtIndex(reg_index); if (register_set_name) response << "group=\"" << register_set_name << "\" "; if (reg_info->kinds[RegisterKind::eRegisterKindEHFrame] != LLDB_INVALID_REGNUM) response.Printf("ehframe_regnum=\"%" PRIu32 "\" ", reg_info->kinds[RegisterKind::eRegisterKindEHFrame]); if (reg_info->kinds[RegisterKind::eRegisterKindDWARF] != LLDB_INVALID_REGNUM) response.Printf("dwarf_regnum=\"%" PRIu32 "\" ", reg_info->kinds[RegisterKind::eRegisterKindDWARF]); llvm::StringRef kind_generic = GetKindGenericOrEmpty(*reg_info); if (!kind_generic.empty()) response << "generic=\"" << kind_generic << "\" "; if (reg_info->value_regs && reg_info->value_regs[0] != LLDB_INVALID_REGNUM) { response.PutCString("value_regnums=\""); CollectRegNums(reg_info->value_regs, response, false); response.Printf("\" "); } if (reg_info->invalidate_regs && reg_info->invalidate_regs[0]) { response.PutCString("invalidate_regnums=\""); CollectRegNums(reg_info->invalidate_regs, response, false); response.Printf("\" "); } if (reg_info->dynamic_size_dwarf_expr_bytes) { const size_t dwarf_opcode_len = reg_info->dynamic_size_dwarf_len; response.PutCString("dynamic_size_dwarf_expr_bytes=\""); for (uint32_t i = 0; i < dwarf_opcode_len; ++i) response.PutHex8(reg_info->dynamic_size_dwarf_expr_bytes[i]); response.Printf("\" "); } response.Printf("/>"); } response.Printf(""); response.Printf(""); return MemoryBuffer::getMemBufferCopy(response.GetString(), "target.xml"); } llvm::Expected> GDBRemoteCommunicationServerLLGS::ReadXferObject(llvm::StringRef object, llvm::StringRef annex) { // Make sure we have a valid process. if (!m_debugged_process_up || (m_debugged_process_up->GetID() == LLDB_INVALID_PROCESS_ID)) { return llvm::createStringError(llvm::inconvertibleErrorCode(), "No process available"); } if (object == "auxv") { // Grab the auxv data. auto buffer_or_error = m_debugged_process_up->GetAuxvData(); if (!buffer_or_error) return llvm::errorCodeToError(buffer_or_error.getError()); return std::move(*buffer_or_error); } if (object == "libraries-svr4") { auto library_list = m_debugged_process_up->GetLoadedSVR4Libraries(); if (!library_list) return library_list.takeError(); StreamString response; response.Printf(""); for (auto const &library : *library_list) { response.Printf("", library.ld_addr); } response.Printf(""); return MemoryBuffer::getMemBufferCopy(response.GetString(), __FUNCTION__); } if (object == "features" && annex == "target.xml") return BuildTargetXml(); return llvm::make_error(); } GDBRemoteCommunication::PacketResult GDBRemoteCommunicationServerLLGS::Handle_qXfer( StringExtractorGDBRemote &packet) { SmallVector fields; // The packet format is "qXfer: