//===-- ThreadGDBRemote.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 "ThreadGDBRemote.h" #include "lldb/Breakpoint/Watchpoint.h" #include "lldb/Target/Platform.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/StopInfo.h" #include "lldb/Target/SystemRuntime.h" #include "lldb/Target/Target.h" #include "lldb/Target/UnixSignals.h" #include "lldb/Target/Unwind.h" #include "lldb/Utility/DataExtractor.h" #include "lldb/Utility/State.h" #include "lldb/Utility/StreamString.h" #include "lldb/Utility/StringExtractorGDBRemote.h" #include "ProcessGDBRemote.h" #include "ProcessGDBRemoteLog.h" #include using namespace lldb; using namespace lldb_private; using namespace lldb_private::process_gdb_remote; // Thread Registers ThreadGDBRemote::ThreadGDBRemote(Process &process, lldb::tid_t tid) : Thread(process, tid), m_thread_name(), m_dispatch_queue_name(), m_thread_dispatch_qaddr(LLDB_INVALID_ADDRESS), m_dispatch_queue_t(LLDB_INVALID_ADDRESS), m_queue_kind(eQueueKindUnknown), m_queue_serial_number(LLDB_INVALID_QUEUE_ID), m_associated_with_libdispatch_queue(eLazyBoolCalculate) { Log *log = GetLog(GDBRLog::Thread); LLDB_LOG(log, "this = {0}, pid = {1}, tid = {2}", this, process.GetID(), GetID()); // At this point we can clone reg_info for architectures supporting // run-time update to register sizes and offsets.. auto &gdb_process = static_cast(process); if (!gdb_process.m_register_info_sp->IsReconfigurable()) m_reg_info_sp = gdb_process.m_register_info_sp; else m_reg_info_sp = std::make_shared( *gdb_process.m_register_info_sp); } ThreadGDBRemote::~ThreadGDBRemote() { ProcessSP process_sp(GetProcess()); Log *log = GetLog(GDBRLog::Thread); LLDB_LOG(log, "this = {0}, pid = {1}, tid = {2}", this, process_sp ? process_sp->GetID() : LLDB_INVALID_PROCESS_ID, GetID()); DestroyThread(); } const char *ThreadGDBRemote::GetName() { if (m_thread_name.empty()) return nullptr; return m_thread_name.c_str(); } void ThreadGDBRemote::ClearQueueInfo() { m_dispatch_queue_name.clear(); m_queue_kind = eQueueKindUnknown; m_queue_serial_number = 0; m_dispatch_queue_t = LLDB_INVALID_ADDRESS; m_associated_with_libdispatch_queue = eLazyBoolCalculate; } void ThreadGDBRemote::SetQueueInfo(std::string &&queue_name, QueueKind queue_kind, uint64_t queue_serial, addr_t dispatch_queue_t, LazyBool associated_with_libdispatch_queue) { m_dispatch_queue_name = queue_name; m_queue_kind = queue_kind; m_queue_serial_number = queue_serial; m_dispatch_queue_t = dispatch_queue_t; m_associated_with_libdispatch_queue = associated_with_libdispatch_queue; } const char *ThreadGDBRemote::GetQueueName() { // If our cached queue info is valid, then someone called // ThreadGDBRemote::SetQueueInfo(...) with valid information that was gleaned // from the stop reply packet. In this case we trust that the info is valid // in m_dispatch_queue_name without refetching it if (CachedQueueInfoIsValid()) { if (m_dispatch_queue_name.empty()) return nullptr; else return m_dispatch_queue_name.c_str(); } // Always re-fetch the dispatch queue name since it can change if (m_associated_with_libdispatch_queue == eLazyBoolNo) return nullptr; if (m_thread_dispatch_qaddr != 0 && m_thread_dispatch_qaddr != LLDB_INVALID_ADDRESS) { ProcessSP process_sp(GetProcess()); if (process_sp) { SystemRuntime *runtime = process_sp->GetSystemRuntime(); if (runtime) m_dispatch_queue_name = runtime->GetQueueNameFromThreadQAddress(m_thread_dispatch_qaddr); else m_dispatch_queue_name.clear(); if (!m_dispatch_queue_name.empty()) return m_dispatch_queue_name.c_str(); } } return nullptr; } QueueKind ThreadGDBRemote::GetQueueKind() { // If our cached queue info is valid, then someone called // ThreadGDBRemote::SetQueueInfo(...) with valid information that was gleaned // from the stop reply packet. In this case we trust that the info is valid // in m_dispatch_queue_name without refetching it if (CachedQueueInfoIsValid()) { return m_queue_kind; } if (m_associated_with_libdispatch_queue == eLazyBoolNo) return eQueueKindUnknown; if (m_thread_dispatch_qaddr != 0 && m_thread_dispatch_qaddr != LLDB_INVALID_ADDRESS) { ProcessSP process_sp(GetProcess()); if (process_sp) { SystemRuntime *runtime = process_sp->GetSystemRuntime(); if (runtime) m_queue_kind = runtime->GetQueueKind(m_thread_dispatch_qaddr); return m_queue_kind; } } return eQueueKindUnknown; } queue_id_t ThreadGDBRemote::GetQueueID() { // If our cached queue info is valid, then someone called // ThreadGDBRemote::SetQueueInfo(...) with valid information that was gleaned // from the stop reply packet. In this case we trust that the info is valid // in m_dispatch_queue_name without refetching it if (CachedQueueInfoIsValid()) return m_queue_serial_number; if (m_associated_with_libdispatch_queue == eLazyBoolNo) return LLDB_INVALID_QUEUE_ID; if (m_thread_dispatch_qaddr != 0 && m_thread_dispatch_qaddr != LLDB_INVALID_ADDRESS) { ProcessSP process_sp(GetProcess()); if (process_sp) { SystemRuntime *runtime = process_sp->GetSystemRuntime(); if (runtime) { return runtime->GetQueueIDFromThreadQAddress(m_thread_dispatch_qaddr); } } } return LLDB_INVALID_QUEUE_ID; } QueueSP ThreadGDBRemote::GetQueue() { queue_id_t queue_id = GetQueueID(); QueueSP queue; if (queue_id != LLDB_INVALID_QUEUE_ID) { ProcessSP process_sp(GetProcess()); if (process_sp) { queue = process_sp->GetQueueList().FindQueueByID(queue_id); } } return queue; } addr_t ThreadGDBRemote::GetQueueLibdispatchQueueAddress() { if (m_dispatch_queue_t == LLDB_INVALID_ADDRESS) { if (m_thread_dispatch_qaddr != 0 && m_thread_dispatch_qaddr != LLDB_INVALID_ADDRESS) { ProcessSP process_sp(GetProcess()); if (process_sp) { SystemRuntime *runtime = process_sp->GetSystemRuntime(); if (runtime) { m_dispatch_queue_t = runtime->GetLibdispatchQueueAddressFromThreadQAddress( m_thread_dispatch_qaddr); } } } } return m_dispatch_queue_t; } void ThreadGDBRemote::SetQueueLibdispatchQueueAddress( lldb::addr_t dispatch_queue_t) { m_dispatch_queue_t = dispatch_queue_t; } bool ThreadGDBRemote::ThreadHasQueueInformation() const { return m_thread_dispatch_qaddr != 0 && m_thread_dispatch_qaddr != LLDB_INVALID_ADDRESS && m_dispatch_queue_t != LLDB_INVALID_ADDRESS && m_queue_kind != eQueueKindUnknown && m_queue_serial_number != 0; } LazyBool ThreadGDBRemote::GetAssociatedWithLibdispatchQueue() { return m_associated_with_libdispatch_queue; } void ThreadGDBRemote::SetAssociatedWithLibdispatchQueue( LazyBool associated_with_libdispatch_queue) { m_associated_with_libdispatch_queue = associated_with_libdispatch_queue; } StructuredData::ObjectSP ThreadGDBRemote::FetchThreadExtendedInfo() { StructuredData::ObjectSP object_sp; const lldb::user_id_t tid = GetProtocolID(); Log *log = GetLog(GDBRLog::Thread); LLDB_LOGF(log, "Fetching extended information for thread %4.4" PRIx64, tid); ProcessSP process_sp(GetProcess()); if (process_sp) { ProcessGDBRemote *gdb_process = static_cast(process_sp.get()); object_sp = gdb_process->GetExtendedInfoForThread(tid); } return object_sp; } void ThreadGDBRemote::WillResume(StateType resume_state) { int signo = GetResumeSignal(); const lldb::user_id_t tid = GetProtocolID(); Log *log = GetLog(GDBRLog::Thread); LLDB_LOGF(log, "Resuming thread: %4.4" PRIx64 " with state: %s.", tid, StateAsCString(resume_state)); ProcessSP process_sp(GetProcess()); if (process_sp) { ProcessGDBRemote *gdb_process = static_cast(process_sp.get()); switch (resume_state) { case eStateSuspended: case eStateStopped: // Don't append anything for threads that should stay stopped. break; case eStateRunning: if (gdb_process->GetUnixSignals()->SignalIsValid(signo)) gdb_process->m_continue_C_tids.push_back(std::make_pair(tid, signo)); else gdb_process->m_continue_c_tids.push_back(tid); break; case eStateStepping: if (gdb_process->GetUnixSignals()->SignalIsValid(signo)) gdb_process->m_continue_S_tids.push_back(std::make_pair(tid, signo)); else gdb_process->m_continue_s_tids.push_back(tid); break; default: break; } } } void ThreadGDBRemote::RefreshStateAfterStop() { // Invalidate all registers in our register context. We don't set "force" to // true because the stop reply packet might have had some register values // that were expedited and these will already be copied into the register // context by the time this function gets called. The // GDBRemoteRegisterContext class has been made smart enough to detect when // it needs to invalidate which registers are valid by putting hooks in the // register read and register supply functions where they check the process // stop ID and do the right thing. const bool force = false; GetRegisterContext()->InvalidateIfNeeded(force); } bool ThreadGDBRemote::ThreadIDIsValid(lldb::tid_t thread) { return thread != 0; } void ThreadGDBRemote::Dump(Log *log, uint32_t index) {} bool ThreadGDBRemote::ShouldStop(bool &step_more) { return true; } lldb::RegisterContextSP ThreadGDBRemote::GetRegisterContext() { if (!m_reg_context_sp) m_reg_context_sp = CreateRegisterContextForFrame(nullptr); return m_reg_context_sp; } lldb::RegisterContextSP ThreadGDBRemote::CreateRegisterContextForFrame(StackFrame *frame) { lldb::RegisterContextSP reg_ctx_sp; uint32_t concrete_frame_idx = 0; if (frame) concrete_frame_idx = frame->GetConcreteFrameIndex(); if (concrete_frame_idx == 0) { ProcessSP process_sp(GetProcess()); if (process_sp) { ProcessGDBRemote *gdb_process = static_cast(process_sp.get()); bool pSupported = gdb_process->GetGDBRemote().GetpPacketSupported(GetID()); bool read_all_registers_at_once = !pSupported || gdb_process->m_use_g_packet_for_reading; bool write_all_registers_at_once = !pSupported; reg_ctx_sp = std::make_shared( *this, concrete_frame_idx, m_reg_info_sp, read_all_registers_at_once, write_all_registers_at_once); } } else { reg_ctx_sp = GetUnwinder().CreateRegisterContextForFrame(frame); } return reg_ctx_sp; } bool ThreadGDBRemote::PrivateSetRegisterValue(uint32_t reg, llvm::ArrayRef data) { GDBRemoteRegisterContext *gdb_reg_ctx = static_cast(GetRegisterContext().get()); assert(gdb_reg_ctx); return gdb_reg_ctx->PrivateSetRegisterValue(reg, data); } bool ThreadGDBRemote::PrivateSetRegisterValue(uint32_t reg, uint64_t regval) { GDBRemoteRegisterContext *gdb_reg_ctx = static_cast(GetRegisterContext().get()); assert(gdb_reg_ctx); return gdb_reg_ctx->PrivateSetRegisterValue(reg, regval); } bool ThreadGDBRemote::CalculateStopInfo() { ProcessSP process_sp(GetProcess()); if (process_sp) return static_cast(process_sp.get()) ->CalculateThreadStopInfo(this); return false; } llvm::Expected> ThreadGDBRemote::GetSiginfo(size_t max_size) const { ProcessSP process_sp(GetProcess()); if (!process_sp) return llvm::createStringError(llvm::inconvertibleErrorCode(), "no process"); ProcessGDBRemote *gdb_process = static_cast(process_sp.get()); if (!gdb_process->m_gdb_comm.GetQXferSigInfoReadSupported()) return llvm::createStringError(llvm::inconvertibleErrorCode(), "qXfer:siginfo:read not supported"); llvm::Expected response = gdb_process->m_gdb_comm.ReadExtFeature("siginfo", ""); if (!response) return response.takeError(); return llvm::MemoryBuffer::getMemBufferCopy(response.get()); }