130fdc8d8SChris Lattner //===-- MachThread.cpp ------------------------------------------*- C++ -*-===// 230fdc8d8SChris Lattner // 330fdc8d8SChris Lattner // The LLVM Compiler Infrastructure 430fdc8d8SChris Lattner // 530fdc8d8SChris Lattner // This file is distributed under the University of Illinois Open Source 630fdc8d8SChris Lattner // License. See LICENSE.TXT for details. 730fdc8d8SChris Lattner // 830fdc8d8SChris Lattner //===----------------------------------------------------------------------===// 930fdc8d8SChris Lattner // 1030fdc8d8SChris Lattner // Created by Greg Clayton on 6/19/07. 1130fdc8d8SChris Lattner // 1230fdc8d8SChris Lattner //===----------------------------------------------------------------------===// 1330fdc8d8SChris Lattner 1430fdc8d8SChris Lattner #include "MachThread.h" 1530fdc8d8SChris Lattner #include "MachProcess.h" 1630fdc8d8SChris Lattner #include "DNBLog.h" 1730fdc8d8SChris Lattner #include "DNB.h" 1830fdc8d8SChris Lattner 1930fdc8d8SChris Lattner static uint32_t 2030fdc8d8SChris Lattner GetSequenceID() 2130fdc8d8SChris Lattner { 2230fdc8d8SChris Lattner static uint32_t g_nextID = 0; 2330fdc8d8SChris Lattner return ++g_nextID; 2430fdc8d8SChris Lattner } 2530fdc8d8SChris Lattner 2630fdc8d8SChris Lattner MachThread::MachThread (MachProcess *process, thread_t thread) : 2730fdc8d8SChris Lattner m_process (process), 2830fdc8d8SChris Lattner m_tid (thread), 2930fdc8d8SChris Lattner m_seq_id (GetSequenceID()), 3030fdc8d8SChris Lattner m_state (eStateUnloaded), 3130fdc8d8SChris Lattner m_state_mutex (PTHREAD_MUTEX_RECURSIVE), 3230fdc8d8SChris Lattner m_breakID (INVALID_NUB_BREAK_ID), 33cdc7322bSGreg Clayton m_suspendCount (0), 343af9ea56SGreg Clayton m_arch_ap (DNBArchProtocol::Create (this)), 35cdc7322bSGreg Clayton m_reg_sets (m_arch_ap->GetRegisterSetInfo (&n_num_reg_sets)) 3630fdc8d8SChris Lattner { 371b946bf6SGreg Clayton // Get the thread state so we know if a thread is in a state where we can't 381b946bf6SGreg Clayton // muck with it and also so we get the suspend count correct in case it was 391b946bf6SGreg Clayton // already suspended 40cdc7322bSGreg Clayton GetBasicInfo(); 4130fdc8d8SChris Lattner DNBLogThreadedIf(LOG_THREAD | LOG_VERBOSE, "MachThread::MachThread ( process = %p, tid = 0x%4.4x, seq_id = %u )", &m_process, m_tid, m_seq_id); 4230fdc8d8SChris Lattner } 4330fdc8d8SChris Lattner 4430fdc8d8SChris Lattner MachThread::~MachThread() 4530fdc8d8SChris Lattner { 4630fdc8d8SChris Lattner DNBLogThreadedIf(LOG_THREAD | LOG_VERBOSE, "MachThread::~MachThread() for tid = 0x%4.4x (%u)", m_tid, m_seq_id); 4730fdc8d8SChris Lattner } 4830fdc8d8SChris Lattner 4930fdc8d8SChris Lattner 5030fdc8d8SChris Lattner 51cdc7322bSGreg Clayton uint32_t 5230fdc8d8SChris Lattner MachThread::Suspend() 5330fdc8d8SChris Lattner { 5430fdc8d8SChris Lattner DNBLogThreadedIf(LOG_THREAD | LOG_VERBOSE, "MachThread::%s ( )", __FUNCTION__); 5530fdc8d8SChris Lattner if (ThreadIDIsValid(m_tid)) 5630fdc8d8SChris Lattner { 5730fdc8d8SChris Lattner DNBError err(::thread_suspend (m_tid), DNBError::MachKernel); 5830fdc8d8SChris Lattner if (err.Success()) 59cdc7322bSGreg Clayton m_suspendCount++; 6030fdc8d8SChris Lattner if (DNBLogCheckLogBit(LOG_THREAD) || err.Fail()) 6130fdc8d8SChris Lattner err.LogThreaded("::thread_suspend (%4.4x)", m_tid); 6230fdc8d8SChris Lattner } 63cdc7322bSGreg Clayton return SuspendCount(); 6430fdc8d8SChris Lattner } 6530fdc8d8SChris Lattner 66cdc7322bSGreg Clayton uint32_t 6730fdc8d8SChris Lattner MachThread::Resume() 6830fdc8d8SChris Lattner { 6930fdc8d8SChris Lattner DNBLogThreadedIf(LOG_THREAD | LOG_VERBOSE, "MachThread::%s ( )", __FUNCTION__); 7030fdc8d8SChris Lattner if (ThreadIDIsValid(m_tid)) 7130fdc8d8SChris Lattner { 720dd2c627SGreg Clayton RestoreSuspendCount(); 7330fdc8d8SChris Lattner } 74cdc7322bSGreg Clayton return SuspendCount(); 7530fdc8d8SChris Lattner } 7630fdc8d8SChris Lattner 7730fdc8d8SChris Lattner bool 7830fdc8d8SChris Lattner MachThread::RestoreSuspendCount() 7930fdc8d8SChris Lattner { 80cdc7322bSGreg Clayton DNBLogThreadedIf(LOG_THREAD | LOG_VERBOSE, "MachThread::%s ( )", __FUNCTION__); 8130fdc8d8SChris Lattner DNBError err; 8230fdc8d8SChris Lattner if (ThreadIDIsValid(m_tid) == false) 8330fdc8d8SChris Lattner return false; 84cdc7322bSGreg Clayton if (m_suspendCount > 0) 8530fdc8d8SChris Lattner { 86cdc7322bSGreg Clayton while (m_suspendCount > 0) 8730fdc8d8SChris Lattner { 8830fdc8d8SChris Lattner err = ::thread_resume (m_tid); 8930fdc8d8SChris Lattner if (DNBLogCheckLogBit(LOG_THREAD) || err.Fail()) 90cdc7322bSGreg Clayton err.LogThreaded("::thread_resume (%4.4x)", m_tid); 9130fdc8d8SChris Lattner if (err.Success()) 92cdc7322bSGreg Clayton --m_suspendCount; 930dd2c627SGreg Clayton else 940dd2c627SGreg Clayton { 95cdc7322bSGreg Clayton if (GetBasicInfo()) 96cdc7322bSGreg Clayton m_suspendCount = m_basicInfo.suspend_count; 970dd2c627SGreg Clayton else 98cdc7322bSGreg Clayton m_suspendCount = 0; 990dd2c627SGreg Clayton return false; // ??? 10030fdc8d8SChris Lattner } 10130fdc8d8SChris Lattner } 1020dd2c627SGreg Clayton } 103cdc7322bSGreg Clayton // We don't currently really support resuming a thread that was externally 104cdc7322bSGreg Clayton // suspended. If/when we do, we will need to make the code below work and 105cdc7322bSGreg Clayton // m_suspendCount will need to become signed instead of unsigned. 106cdc7322bSGreg Clayton // else if (m_suspendCount < 0) 107cdc7322bSGreg Clayton // { 108cdc7322bSGreg Clayton // while (m_suspendCount < 0) 109cdc7322bSGreg Clayton // { 110cdc7322bSGreg Clayton // err = ::thread_suspend (m_tid); 111cdc7322bSGreg Clayton // if (err.Success()) 112cdc7322bSGreg Clayton // ++m_suspendCount; 113cdc7322bSGreg Clayton // if (DNBLogCheckLogBit(LOG_THREAD) || err.Fail()) 114cdc7322bSGreg Clayton // err.LogThreaded("::thread_suspend (%4.4x)", m_tid); 115cdc7322bSGreg Clayton // } 116cdc7322bSGreg Clayton // } 1170dd2c627SGreg Clayton return true; 11830fdc8d8SChris Lattner } 11930fdc8d8SChris Lattner 12030fdc8d8SChris Lattner 12130fdc8d8SChris Lattner const char * 12230fdc8d8SChris Lattner MachThread::GetBasicInfoAsString () const 12330fdc8d8SChris Lattner { 12430fdc8d8SChris Lattner static char g_basic_info_string[1024]; 12530fdc8d8SChris Lattner struct thread_basic_info basicInfo; 12630fdc8d8SChris Lattner 12730fdc8d8SChris Lattner if (GetBasicInfo(m_tid, &basicInfo)) 12830fdc8d8SChris Lattner { 12930fdc8d8SChris Lattner 13030fdc8d8SChris Lattner // char run_state_str[32]; 13130fdc8d8SChris Lattner // size_t run_state_str_size = sizeof(run_state_str); 13230fdc8d8SChris Lattner // switch (basicInfo.run_state) 13330fdc8d8SChris Lattner // { 13430fdc8d8SChris Lattner // case TH_STATE_RUNNING: strncpy(run_state_str, "running", run_state_str_size); break; 13530fdc8d8SChris Lattner // case TH_STATE_STOPPED: strncpy(run_state_str, "stopped", run_state_str_size); break; 13630fdc8d8SChris Lattner // case TH_STATE_WAITING: strncpy(run_state_str, "waiting", run_state_str_size); break; 13730fdc8d8SChris Lattner // case TH_STATE_UNINTERRUPTIBLE: strncpy(run_state_str, "uninterruptible", run_state_str_size); break; 13830fdc8d8SChris Lattner // case TH_STATE_HALTED: strncpy(run_state_str, "halted", run_state_str_size); break; 13930fdc8d8SChris Lattner // default: snprintf(run_state_str, run_state_str_size, "%d", basicInfo.run_state); break; // ??? 14030fdc8d8SChris Lattner // } 14130fdc8d8SChris Lattner float user = (float)basicInfo.user_time.seconds + (float)basicInfo.user_time.microseconds / 1000000.0f; 14230fdc8d8SChris Lattner float system = (float)basicInfo.user_time.seconds + (float)basicInfo.user_time.microseconds / 1000000.0f; 14330fdc8d8SChris Lattner snprintf(g_basic_info_string, sizeof(g_basic_info_string), "Thread 0x%4.4x: user=%f system=%f cpu=%d sleep_time=%d", 14430fdc8d8SChris Lattner InferiorThreadID(), 14530fdc8d8SChris Lattner user, 14630fdc8d8SChris Lattner system, 14730fdc8d8SChris Lattner basicInfo.cpu_usage, 14830fdc8d8SChris Lattner basicInfo.sleep_time); 14930fdc8d8SChris Lattner 15030fdc8d8SChris Lattner return g_basic_info_string; 15130fdc8d8SChris Lattner } 15230fdc8d8SChris Lattner return NULL; 15330fdc8d8SChris Lattner } 15430fdc8d8SChris Lattner 15530fdc8d8SChris Lattner thread_t 15630fdc8d8SChris Lattner MachThread::InferiorThreadID() const 15730fdc8d8SChris Lattner { 15830fdc8d8SChris Lattner mach_msg_type_number_t i; 15930fdc8d8SChris Lattner mach_port_name_array_t names; 16030fdc8d8SChris Lattner mach_port_type_array_t types; 16130fdc8d8SChris Lattner mach_msg_type_number_t ncount, tcount; 16230fdc8d8SChris Lattner thread_t inferior_tid = INVALID_NUB_THREAD; 16330fdc8d8SChris Lattner task_t my_task = ::mach_task_self(); 16430fdc8d8SChris Lattner task_t task = m_process->Task().TaskPort(); 16530fdc8d8SChris Lattner 16630fdc8d8SChris Lattner kern_return_t kret = ::mach_port_names (task, &names, &ncount, &types, &tcount); 16730fdc8d8SChris Lattner if (kret == KERN_SUCCESS) 16830fdc8d8SChris Lattner { 16930fdc8d8SChris Lattner 17030fdc8d8SChris Lattner for (i = 0; i < ncount; i++) 17130fdc8d8SChris Lattner { 17230fdc8d8SChris Lattner mach_port_t my_name; 17330fdc8d8SChris Lattner mach_msg_type_name_t my_type; 17430fdc8d8SChris Lattner 17530fdc8d8SChris Lattner kret = ::mach_port_extract_right (task, names[i], MACH_MSG_TYPE_COPY_SEND, &my_name, &my_type); 17630fdc8d8SChris Lattner if (kret == KERN_SUCCESS) 17730fdc8d8SChris Lattner { 17830fdc8d8SChris Lattner ::mach_port_deallocate (my_task, my_name); 17930fdc8d8SChris Lattner if (my_name == m_tid) 18030fdc8d8SChris Lattner { 18130fdc8d8SChris Lattner inferior_tid = names[i]; 18230fdc8d8SChris Lattner break; 18330fdc8d8SChris Lattner } 18430fdc8d8SChris Lattner } 18530fdc8d8SChris Lattner } 18630fdc8d8SChris Lattner // Free up the names and types 18730fdc8d8SChris Lattner ::vm_deallocate (my_task, (vm_address_t) names, ncount * sizeof (mach_port_name_t)); 18830fdc8d8SChris Lattner ::vm_deallocate (my_task, (vm_address_t) types, tcount * sizeof (mach_port_type_t)); 18930fdc8d8SChris Lattner } 19030fdc8d8SChris Lattner return inferior_tid; 19130fdc8d8SChris Lattner } 19230fdc8d8SChris Lattner 19330fdc8d8SChris Lattner bool 1941b946bf6SGreg Clayton MachThread::IsUserReady() 1951b946bf6SGreg Clayton { 196cdc7322bSGreg Clayton if (m_basicInfo.run_state == 0) 197cdc7322bSGreg Clayton GetBasicInfo (); 1981b946bf6SGreg Clayton 199cdc7322bSGreg Clayton switch (m_basicInfo.run_state) 2001b946bf6SGreg Clayton { 2011b946bf6SGreg Clayton default: 2021b946bf6SGreg Clayton case TH_STATE_UNINTERRUPTIBLE: 2031b946bf6SGreg Clayton break; 2041b946bf6SGreg Clayton 2051b946bf6SGreg Clayton case TH_STATE_RUNNING: 2061b946bf6SGreg Clayton case TH_STATE_STOPPED: 2071b946bf6SGreg Clayton case TH_STATE_WAITING: 2081b946bf6SGreg Clayton case TH_STATE_HALTED: 2091b946bf6SGreg Clayton return true; 2101b946bf6SGreg Clayton } 2111b946bf6SGreg Clayton return false; 2121b946bf6SGreg Clayton } 2131b946bf6SGreg Clayton 2141b946bf6SGreg Clayton struct thread_basic_info * 215cdc7322bSGreg Clayton MachThread::GetBasicInfo () 2161b946bf6SGreg Clayton { 217cdc7322bSGreg Clayton if (MachThread::GetBasicInfo(m_tid, &m_basicInfo)) 218cdc7322bSGreg Clayton return &m_basicInfo; 2191b946bf6SGreg Clayton return NULL; 2201b946bf6SGreg Clayton } 2211b946bf6SGreg Clayton 2221b946bf6SGreg Clayton 2231b946bf6SGreg Clayton bool 22430fdc8d8SChris Lattner MachThread::GetBasicInfo(thread_t thread, struct thread_basic_info *basicInfoPtr) 22530fdc8d8SChris Lattner { 22630fdc8d8SChris Lattner if (ThreadIDIsValid(thread)) 22730fdc8d8SChris Lattner { 22830fdc8d8SChris Lattner unsigned int info_count = THREAD_BASIC_INFO_COUNT; 22930fdc8d8SChris Lattner kern_return_t err = ::thread_info (thread, THREAD_BASIC_INFO, (thread_info_t) basicInfoPtr, &info_count); 23030fdc8d8SChris Lattner if (err == KERN_SUCCESS) 23130fdc8d8SChris Lattner return true; 23230fdc8d8SChris Lattner } 23330fdc8d8SChris Lattner ::memset (basicInfoPtr, 0, sizeof (struct thread_basic_info)); 23430fdc8d8SChris Lattner return false; 23530fdc8d8SChris Lattner } 23630fdc8d8SChris Lattner 23730fdc8d8SChris Lattner 23830fdc8d8SChris Lattner bool 23930fdc8d8SChris Lattner MachThread::ThreadIDIsValid(thread_t thread) 24030fdc8d8SChris Lattner { 24130fdc8d8SChris Lattner return thread != THREAD_NULL; 24230fdc8d8SChris Lattner } 24330fdc8d8SChris Lattner 24430fdc8d8SChris Lattner bool 24530fdc8d8SChris Lattner MachThread::GetRegisterState(int flavor, bool force) 24630fdc8d8SChris Lattner { 2473af9ea56SGreg Clayton return m_arch_ap->GetRegisterState(flavor, force) == KERN_SUCCESS; 24830fdc8d8SChris Lattner } 24930fdc8d8SChris Lattner 25030fdc8d8SChris Lattner bool 25130fdc8d8SChris Lattner MachThread::SetRegisterState(int flavor) 25230fdc8d8SChris Lattner { 2533af9ea56SGreg Clayton return m_arch_ap->SetRegisterState(flavor) == KERN_SUCCESS; 25430fdc8d8SChris Lattner } 25530fdc8d8SChris Lattner 25630fdc8d8SChris Lattner uint64_t 25730fdc8d8SChris Lattner MachThread::GetPC(uint64_t failValue) 25830fdc8d8SChris Lattner { 25930fdc8d8SChris Lattner // Get program counter 2603af9ea56SGreg Clayton return m_arch_ap->GetPC(failValue); 26130fdc8d8SChris Lattner } 26230fdc8d8SChris Lattner 26330fdc8d8SChris Lattner bool 26430fdc8d8SChris Lattner MachThread::SetPC(uint64_t value) 26530fdc8d8SChris Lattner { 26630fdc8d8SChris Lattner // Set program counter 2673af9ea56SGreg Clayton return m_arch_ap->SetPC(value); 26830fdc8d8SChris Lattner } 26930fdc8d8SChris Lattner 27030fdc8d8SChris Lattner uint64_t 27130fdc8d8SChris Lattner MachThread::GetSP(uint64_t failValue) 27230fdc8d8SChris Lattner { 27330fdc8d8SChris Lattner // Get stack pointer 2743af9ea56SGreg Clayton return m_arch_ap->GetSP(failValue); 27530fdc8d8SChris Lattner } 27630fdc8d8SChris Lattner 27730fdc8d8SChris Lattner nub_process_t 27830fdc8d8SChris Lattner MachThread::ProcessID() const 27930fdc8d8SChris Lattner { 28030fdc8d8SChris Lattner if (m_process) 28130fdc8d8SChris Lattner return m_process->ProcessID(); 28230fdc8d8SChris Lattner return INVALID_NUB_PROCESS; 28330fdc8d8SChris Lattner } 28430fdc8d8SChris Lattner 28530fdc8d8SChris Lattner void 28630fdc8d8SChris Lattner MachThread::Dump(uint32_t index) 28730fdc8d8SChris Lattner { 28830fdc8d8SChris Lattner const char * thread_run_state = NULL; 28930fdc8d8SChris Lattner 290cdc7322bSGreg Clayton switch (m_basicInfo.run_state) 29130fdc8d8SChris Lattner { 29230fdc8d8SChris Lattner case TH_STATE_RUNNING: thread_run_state = "running"; break; // 1 thread is running normally 29330fdc8d8SChris Lattner case TH_STATE_STOPPED: thread_run_state = "stopped"; break; // 2 thread is stopped 29430fdc8d8SChris Lattner case TH_STATE_WAITING: thread_run_state = "waiting"; break; // 3 thread is waiting normally 29530fdc8d8SChris Lattner case TH_STATE_UNINTERRUPTIBLE: thread_run_state = "uninter"; break; // 4 thread is in an uninterruptible wait 29630fdc8d8SChris Lattner case TH_STATE_HALTED: thread_run_state = "halted "; break; // 5 thread is halted at a 29730fdc8d8SChris Lattner default: thread_run_state = "???"; break; 29830fdc8d8SChris Lattner } 29930fdc8d8SChris Lattner 300e2d4f0d7SGreg Clayton DNBLogThreaded("[%3u] #%3u tid: 0x%4.4x, pc: 0x%16.16llx, sp: 0x%16.16llx, breakID: %3d, user: %d.%06.6d, system: %d.%06.6d, cpu: %2d, policy: %2d, run_state: %2d (%s), flags: %2d, suspend_count: %2d (current %2d), sleep_time: %d", 30130fdc8d8SChris Lattner index, 30230fdc8d8SChris Lattner m_seq_id, 303e2d4f0d7SGreg Clayton m_tid, 30430fdc8d8SChris Lattner GetPC(INVALID_NUB_ADDRESS), 30530fdc8d8SChris Lattner GetSP(INVALID_NUB_ADDRESS), 30630fdc8d8SChris Lattner m_breakID, 307cdc7322bSGreg Clayton m_basicInfo.user_time.seconds, m_basicInfo.user_time.microseconds, 308cdc7322bSGreg Clayton m_basicInfo.system_time.seconds, m_basicInfo.system_time.microseconds, 309cdc7322bSGreg Clayton m_basicInfo.cpu_usage, 310cdc7322bSGreg Clayton m_basicInfo.policy, 311cdc7322bSGreg Clayton m_basicInfo.run_state, 31230fdc8d8SChris Lattner thread_run_state, 313cdc7322bSGreg Clayton m_basicInfo.flags, 314cdc7322bSGreg Clayton m_basicInfo.suspend_count, m_suspendCount, 315cdc7322bSGreg Clayton m_basicInfo.sleep_time); 31630fdc8d8SChris Lattner //DumpRegisterState(0); 31730fdc8d8SChris Lattner } 31830fdc8d8SChris Lattner 31930fdc8d8SChris Lattner void 32030fdc8d8SChris Lattner MachThread::ThreadWillResume(const DNBThreadResumeAction *thread_action) 32130fdc8d8SChris Lattner { 32230fdc8d8SChris Lattner if (thread_action->addr != INVALID_NUB_ADDRESS) 32330fdc8d8SChris Lattner SetPC (thread_action->addr); 324cdc7322bSGreg Clayton 32530fdc8d8SChris Lattner SetState (thread_action->state); 32630fdc8d8SChris Lattner switch (thread_action->state) 32730fdc8d8SChris Lattner { 32830fdc8d8SChris Lattner case eStateStopped: 32930fdc8d8SChris Lattner case eStateSuspended: 33030fdc8d8SChris Lattner Suspend(); 33130fdc8d8SChris Lattner break; 33230fdc8d8SChris Lattner 33330fdc8d8SChris Lattner case eStateRunning: 334b1e11121SJim Ingham case eStateStepping: 335cdc7322bSGreg Clayton Resume(); 336b1e11121SJim Ingham break; 337*effe5c95SGreg Clayton default: 338*effe5c95SGreg Clayton break; 33930fdc8d8SChris Lattner } 3403af9ea56SGreg Clayton m_arch_ap->ThreadWillResume(); 34130fdc8d8SChris Lattner m_stop_exception.Clear(); 34230fdc8d8SChris Lattner } 34330fdc8d8SChris Lattner 344c4e411ffSGreg Clayton nub_break_t 345c4e411ffSGreg Clayton MachThread::CurrentBreakpoint() 346c4e411ffSGreg Clayton { 347c4e411ffSGreg Clayton return m_process->Breakpoints().FindIDByAddress(GetPC()); 348c4e411ffSGreg Clayton } 349c4e411ffSGreg Clayton 35030fdc8d8SChris Lattner bool 35130fdc8d8SChris Lattner MachThread::ShouldStop(bool &step_more) 35230fdc8d8SChris Lattner { 35330fdc8d8SChris Lattner // See if this thread is at a breakpoint? 35430fdc8d8SChris Lattner nub_break_t breakID = CurrentBreakpoint(); 35530fdc8d8SChris Lattner 35630fdc8d8SChris Lattner if (NUB_BREAK_ID_IS_VALID(breakID)) 35730fdc8d8SChris Lattner { 35830fdc8d8SChris Lattner // This thread is sitting at a breakpoint, ask the breakpoint 35930fdc8d8SChris Lattner // if we should be stopping here. 36030fdc8d8SChris Lattner if (Process()->Breakpoints().ShouldStop(ProcessID(), ThreadID(), breakID)) 36130fdc8d8SChris Lattner return true; 36230fdc8d8SChris Lattner else 36330fdc8d8SChris Lattner { 36430fdc8d8SChris Lattner // The breakpoint said we shouldn't stop, but we may have gotten 36530fdc8d8SChris Lattner // a signal or the user may have requested to stop in some other 36630fdc8d8SChris Lattner // way. Stop if we have a valid exception (this thread won't if 36730fdc8d8SChris Lattner // another thread was the reason this process stopped) and that 36830fdc8d8SChris Lattner // exception, is NOT a breakpoint exception (a common case would 36930fdc8d8SChris Lattner // be a SIGINT signal). 37030fdc8d8SChris Lattner if (GetStopException().IsValid() && !GetStopException().IsBreakpoint()) 37130fdc8d8SChris Lattner return true; 37230fdc8d8SChris Lattner } 37330fdc8d8SChris Lattner } 37430fdc8d8SChris Lattner else 37530fdc8d8SChris Lattner { 3763af9ea56SGreg Clayton if (m_arch_ap->StepNotComplete()) 37730fdc8d8SChris Lattner { 37830fdc8d8SChris Lattner step_more = true; 37930fdc8d8SChris Lattner return false; 38030fdc8d8SChris Lattner } 38130fdc8d8SChris Lattner // The thread state is used to let us know what the thread was 38230fdc8d8SChris Lattner // trying to do. MachThread::ThreadWillResume() will set the 38330fdc8d8SChris Lattner // thread state to various values depending if the thread was 38430fdc8d8SChris Lattner // the current thread and if it was to be single stepped, or 38530fdc8d8SChris Lattner // resumed. 38630fdc8d8SChris Lattner if (GetState() == eStateRunning) 38730fdc8d8SChris Lattner { 38830fdc8d8SChris Lattner // If our state is running, then we should continue as we are in 38930fdc8d8SChris Lattner // the process of stepping over a breakpoint. 39030fdc8d8SChris Lattner return false; 39130fdc8d8SChris Lattner } 39230fdc8d8SChris Lattner else 39330fdc8d8SChris Lattner { 39430fdc8d8SChris Lattner // Stop if we have any kind of valid exception for this 39530fdc8d8SChris Lattner // thread. 39630fdc8d8SChris Lattner if (GetStopException().IsValid()) 39730fdc8d8SChris Lattner return true; 39830fdc8d8SChris Lattner } 39930fdc8d8SChris Lattner } 40030fdc8d8SChris Lattner return false; 40130fdc8d8SChris Lattner } 40230fdc8d8SChris Lattner bool 40330fdc8d8SChris Lattner MachThread::IsStepping() 40430fdc8d8SChris Lattner { 405c4e411ffSGreg Clayton #if ENABLE_AUTO_STEPPING_OVER_BP 40630fdc8d8SChris Lattner // Return true if this thread is currently being stepped. 40730fdc8d8SChris Lattner // MachThread::ThreadWillResume currently determines this by looking if we 40830fdc8d8SChris Lattner // have been asked to single step, or if we are at a breakpoint instruction 40930fdc8d8SChris Lattner // and have been asked to resume. In the latter case we need to disable the 41030fdc8d8SChris Lattner // breakpoint we are at, single step, re-enable and continue. 41130fdc8d8SChris Lattner nub_state_t state = GetState(); 412c4e411ffSGreg Clayton return ((state == eStateStepping) || 413c4e411ffSGreg Clayton (state == eStateRunning && NUB_BREAK_ID_IS_VALID(CurrentBreakpoint()))); 414c4e411ffSGreg Clayton #else 415c4e411ffSGreg Clayton return GetState() == eStateStepping; 416c4e411ffSGreg Clayton #endif 41730fdc8d8SChris Lattner } 41830fdc8d8SChris Lattner 41930fdc8d8SChris Lattner 42030fdc8d8SChris Lattner bool 42130fdc8d8SChris Lattner MachThread::ThreadDidStop() 42230fdc8d8SChris Lattner { 42330fdc8d8SChris Lattner // This thread has existed prior to resuming under debug nub control, 42430fdc8d8SChris Lattner // and has just been stopped. Do any cleanup that needs to be done 42530fdc8d8SChris Lattner // after running. 42630fdc8d8SChris Lattner 42730fdc8d8SChris Lattner // The thread state and breakpoint will still have the same values 42830fdc8d8SChris Lattner // as they had prior to resuming the thread, so it makes it easy to check 42930fdc8d8SChris Lattner // if we were trying to step a thread, or we tried to resume while being 43030fdc8d8SChris Lattner // at a breakpoint. 43130fdc8d8SChris Lattner 43230fdc8d8SChris Lattner // When this method gets called, the process state is still in the 43330fdc8d8SChris Lattner // state it was in while running so we can act accordingly. 4343af9ea56SGreg Clayton m_arch_ap->ThreadDidStop(); 43530fdc8d8SChris Lattner 43630fdc8d8SChris Lattner 43730fdc8d8SChris Lattner // We may have suspended this thread so the primary thread could step 43830fdc8d8SChris Lattner // without worrying about race conditions, so lets restore our suspend 43930fdc8d8SChris Lattner // count. 44030fdc8d8SChris Lattner RestoreSuspendCount(); 44130fdc8d8SChris Lattner 44230fdc8d8SChris Lattner // Update the basic information for a thread 443cdc7322bSGreg Clayton MachThread::GetBasicInfo(m_tid, &m_basicInfo); 44430fdc8d8SChris Lattner 445c4e411ffSGreg Clayton #if ENABLE_AUTO_STEPPING_OVER_BP 44630fdc8d8SChris Lattner // See if we were at a breakpoint when we last resumed that we disabled, 44730fdc8d8SChris Lattner // re-enable it. 44830fdc8d8SChris Lattner nub_break_t breakID = CurrentBreakpoint(); 44930fdc8d8SChris Lattner 45030fdc8d8SChris Lattner if (NUB_BREAK_ID_IS_VALID(breakID)) 45130fdc8d8SChris Lattner { 45230fdc8d8SChris Lattner m_process->EnableBreakpoint(breakID); 453cdc7322bSGreg Clayton if (m_basicInfo.suspend_count > 0) 45430fdc8d8SChris Lattner { 45530fdc8d8SChris Lattner SetState(eStateSuspended); 45630fdc8d8SChris Lattner } 45730fdc8d8SChris Lattner else 45830fdc8d8SChris Lattner { 45930fdc8d8SChris Lattner // If we last were at a breakpoint and we single stepped, our state 46030fdc8d8SChris Lattner // will be "running" to indicate we need to continue after stepping 46130fdc8d8SChris Lattner // over the breakpoint instruction. If we step over a breakpoint 46230fdc8d8SChris Lattner // instruction, we need to stop. 46330fdc8d8SChris Lattner if (GetState() == eStateRunning) 46430fdc8d8SChris Lattner { 46530fdc8d8SChris Lattner // Leave state set to running so we will continue automatically 46630fdc8d8SChris Lattner // from this breakpoint 46730fdc8d8SChris Lattner } 46830fdc8d8SChris Lattner else 46930fdc8d8SChris Lattner { 47030fdc8d8SChris Lattner SetState(eStateStopped); 47130fdc8d8SChris Lattner } 47230fdc8d8SChris Lattner } 47330fdc8d8SChris Lattner } 47430fdc8d8SChris Lattner else 47530fdc8d8SChris Lattner { 476cdc7322bSGreg Clayton if (m_basicInfo.suspend_count > 0) 47730fdc8d8SChris Lattner { 47830fdc8d8SChris Lattner SetState(eStateSuspended); 47930fdc8d8SChris Lattner } 48030fdc8d8SChris Lattner else 48130fdc8d8SChris Lattner { 48230fdc8d8SChris Lattner SetState(eStateStopped); 48330fdc8d8SChris Lattner } 48430fdc8d8SChris Lattner } 485c4e411ffSGreg Clayton #else 486cdc7322bSGreg Clayton if (m_basicInfo.suspend_count > 0) 487c4e411ffSGreg Clayton SetState(eStateSuspended); 488c4e411ffSGreg Clayton else 489c4e411ffSGreg Clayton SetState(eStateStopped); 490c4e411ffSGreg Clayton #endif 49130fdc8d8SChris Lattner return true; 49230fdc8d8SChris Lattner } 49330fdc8d8SChris Lattner 49430fdc8d8SChris Lattner bool 49530fdc8d8SChris Lattner MachThread::NotifyException(MachException::Data& exc) 49630fdc8d8SChris Lattner { 49730fdc8d8SChris Lattner if (m_stop_exception.IsValid()) 49830fdc8d8SChris Lattner { 49930fdc8d8SChris Lattner // We may have more than one exception for a thread, but we need to 50030fdc8d8SChris Lattner // only remember the one that we will say is the reason we stopped. 50130fdc8d8SChris Lattner // We may have been single stepping and also gotten a signal exception, 50230fdc8d8SChris Lattner // so just remember the most pertinent one. 50330fdc8d8SChris Lattner if (m_stop_exception.IsBreakpoint()) 50430fdc8d8SChris Lattner m_stop_exception = exc; 50530fdc8d8SChris Lattner } 50630fdc8d8SChris Lattner else 50730fdc8d8SChris Lattner { 50830fdc8d8SChris Lattner m_stop_exception = exc; 50930fdc8d8SChris Lattner } 5103af9ea56SGreg Clayton bool handled = m_arch_ap->NotifyException(exc); 51130fdc8d8SChris Lattner if (!handled) 51230fdc8d8SChris Lattner { 51330fdc8d8SChris Lattner handled = true; 514c4e411ffSGreg Clayton // switch (exc.exc_type) 515c4e411ffSGreg Clayton // { 516c4e411ffSGreg Clayton // case EXC_BAD_ACCESS: 517c4e411ffSGreg Clayton // break; 518c4e411ffSGreg Clayton // case EXC_BAD_INSTRUCTION: 519c4e411ffSGreg Clayton // break; 520c4e411ffSGreg Clayton // case EXC_ARITHMETIC: 521c4e411ffSGreg Clayton // break; 522c4e411ffSGreg Clayton // case EXC_EMULATION: 523c4e411ffSGreg Clayton // break; 524c4e411ffSGreg Clayton // case EXC_SOFTWARE: 525c4e411ffSGreg Clayton // break; 526c4e411ffSGreg Clayton // case EXC_BREAKPOINT: 527c4e411ffSGreg Clayton // break; 528c4e411ffSGreg Clayton // case EXC_SYSCALL: 529c4e411ffSGreg Clayton // break; 530c4e411ffSGreg Clayton // case EXC_MACH_SYSCALL: 531c4e411ffSGreg Clayton // break; 532c4e411ffSGreg Clayton // case EXC_RPC_ALERT: 533c4e411ffSGreg Clayton // break; 534c4e411ffSGreg Clayton // } 53530fdc8d8SChris Lattner } 53630fdc8d8SChris Lattner return handled; 53730fdc8d8SChris Lattner } 53830fdc8d8SChris Lattner 53930fdc8d8SChris Lattner 54030fdc8d8SChris Lattner nub_state_t 54130fdc8d8SChris Lattner MachThread::GetState() 54230fdc8d8SChris Lattner { 54330fdc8d8SChris Lattner // If any other threads access this we will need a mutex for it 54430fdc8d8SChris Lattner PTHREAD_MUTEX_LOCKER (locker, m_state_mutex); 54530fdc8d8SChris Lattner return m_state; 54630fdc8d8SChris Lattner } 54730fdc8d8SChris Lattner 54830fdc8d8SChris Lattner void 54930fdc8d8SChris Lattner MachThread::SetState(nub_state_t state) 55030fdc8d8SChris Lattner { 55130fdc8d8SChris Lattner PTHREAD_MUTEX_LOCKER (locker, m_state_mutex); 55230fdc8d8SChris Lattner m_state = state; 55330fdc8d8SChris Lattner DNBLogThreadedIf(LOG_THREAD, "MachThread::SetState ( %s ) for tid = 0x%4.4x", DNBStateAsString(state), m_tid); 55430fdc8d8SChris Lattner } 55530fdc8d8SChris Lattner 55630fdc8d8SChris Lattner uint32_t 55730fdc8d8SChris Lattner MachThread::GetNumRegistersInSet(int regSet) const 55830fdc8d8SChris Lattner { 5593af9ea56SGreg Clayton if (regSet < n_num_reg_sets) 5603af9ea56SGreg Clayton return m_reg_sets[regSet].num_registers; 56130fdc8d8SChris Lattner return 0; 56230fdc8d8SChris Lattner } 56330fdc8d8SChris Lattner 56430fdc8d8SChris Lattner const char * 56530fdc8d8SChris Lattner MachThread::GetRegisterSetName(int regSet) const 56630fdc8d8SChris Lattner { 5673af9ea56SGreg Clayton if (regSet < n_num_reg_sets) 5683af9ea56SGreg Clayton return m_reg_sets[regSet].name; 56930fdc8d8SChris Lattner return NULL; 57030fdc8d8SChris Lattner } 57130fdc8d8SChris Lattner 57230fdc8d8SChris Lattner const DNBRegisterInfo * 57330fdc8d8SChris Lattner MachThread::GetRegisterInfo(int regSet, int regIndex) const 57430fdc8d8SChris Lattner { 5753af9ea56SGreg Clayton if (regSet < n_num_reg_sets) 5763af9ea56SGreg Clayton if (regIndex < m_reg_sets[regSet].num_registers) 5773af9ea56SGreg Clayton return &m_reg_sets[regSet].registers[regIndex]; 57830fdc8d8SChris Lattner return NULL; 57930fdc8d8SChris Lattner } 58030fdc8d8SChris Lattner void 58130fdc8d8SChris Lattner MachThread::DumpRegisterState(int regSet) 58230fdc8d8SChris Lattner { 58330fdc8d8SChris Lattner if (regSet == REGISTER_SET_ALL) 58430fdc8d8SChris Lattner { 5853af9ea56SGreg Clayton for (regSet = 1; regSet < n_num_reg_sets; regSet++) 58630fdc8d8SChris Lattner DumpRegisterState(regSet); 58730fdc8d8SChris Lattner } 58830fdc8d8SChris Lattner else 58930fdc8d8SChris Lattner { 5903af9ea56SGreg Clayton if (m_arch_ap->RegisterSetStateIsValid(regSet)) 59130fdc8d8SChris Lattner { 59230fdc8d8SChris Lattner const size_t numRegisters = GetNumRegistersInSet(regSet); 59330fdc8d8SChris Lattner size_t regIndex = 0; 59430fdc8d8SChris Lattner DNBRegisterValueClass reg; 59530fdc8d8SChris Lattner for (regIndex = 0; regIndex < numRegisters; ++regIndex) 59630fdc8d8SChris Lattner { 5973af9ea56SGreg Clayton if (m_arch_ap->GetRegisterValue(regSet, regIndex, ®)) 59830fdc8d8SChris Lattner { 59930fdc8d8SChris Lattner reg.Dump(NULL, NULL); 60030fdc8d8SChris Lattner } 60130fdc8d8SChris Lattner } 60230fdc8d8SChris Lattner } 60330fdc8d8SChris Lattner else 60430fdc8d8SChris Lattner { 60530fdc8d8SChris Lattner DNBLog("%s: registers are not currently valid.", GetRegisterSetName(regSet)); 60630fdc8d8SChris Lattner } 60730fdc8d8SChris Lattner } 60830fdc8d8SChris Lattner } 60930fdc8d8SChris Lattner 61030fdc8d8SChris Lattner const DNBRegisterSetInfo * 61130fdc8d8SChris Lattner MachThread::GetRegisterSetInfo(nub_size_t *num_reg_sets ) const 61230fdc8d8SChris Lattner { 6133af9ea56SGreg Clayton *num_reg_sets = n_num_reg_sets; 6143af9ea56SGreg Clayton return &m_reg_sets[0]; 61530fdc8d8SChris Lattner } 61630fdc8d8SChris Lattner 61730fdc8d8SChris Lattner bool 61830fdc8d8SChris Lattner MachThread::GetRegisterValue ( uint32_t set, uint32_t reg, DNBRegisterValue *value ) 61930fdc8d8SChris Lattner { 6203af9ea56SGreg Clayton return m_arch_ap->GetRegisterValue(set, reg, value); 62130fdc8d8SChris Lattner } 62230fdc8d8SChris Lattner 62330fdc8d8SChris Lattner bool 62430fdc8d8SChris Lattner MachThread::SetRegisterValue ( uint32_t set, uint32_t reg, const DNBRegisterValue *value ) 62530fdc8d8SChris Lattner { 6263af9ea56SGreg Clayton return m_arch_ap->SetRegisterValue(set, reg, value); 62730fdc8d8SChris Lattner } 62830fdc8d8SChris Lattner 62930fdc8d8SChris Lattner nub_size_t 63030fdc8d8SChris Lattner MachThread::GetRegisterContext (void *buf, nub_size_t buf_len) 63130fdc8d8SChris Lattner { 6323af9ea56SGreg Clayton return m_arch_ap->GetRegisterContext(buf, buf_len); 63330fdc8d8SChris Lattner } 63430fdc8d8SChris Lattner 63530fdc8d8SChris Lattner nub_size_t 63630fdc8d8SChris Lattner MachThread::SetRegisterContext (const void *buf, nub_size_t buf_len) 63730fdc8d8SChris Lattner { 6383af9ea56SGreg Clayton return m_arch_ap->SetRegisterContext(buf, buf_len); 63930fdc8d8SChris Lattner } 64030fdc8d8SChris Lattner 64130fdc8d8SChris Lattner uint32_t 64230fdc8d8SChris Lattner MachThread::EnableHardwareBreakpoint (const DNBBreakpoint *bp) 64330fdc8d8SChris Lattner { 64430fdc8d8SChris Lattner if (bp != NULL && bp->IsBreakpoint()) 6453af9ea56SGreg Clayton return m_arch_ap->EnableHardwareBreakpoint(bp->Address(), bp->ByteSize()); 64630fdc8d8SChris Lattner return INVALID_NUB_HW_INDEX; 64730fdc8d8SChris Lattner } 64830fdc8d8SChris Lattner 64930fdc8d8SChris Lattner uint32_t 65030fdc8d8SChris Lattner MachThread::EnableHardwareWatchpoint (const DNBBreakpoint *wp) 65130fdc8d8SChris Lattner { 65230fdc8d8SChris Lattner if (wp != NULL && wp->IsWatchpoint()) 6533af9ea56SGreg Clayton return m_arch_ap->EnableHardwareWatchpoint(wp->Address(), wp->ByteSize(), wp->WatchpointRead(), wp->WatchpointWrite()); 65430fdc8d8SChris Lattner return INVALID_NUB_HW_INDEX; 65530fdc8d8SChris Lattner } 65630fdc8d8SChris Lattner 65730fdc8d8SChris Lattner bool 65830fdc8d8SChris Lattner MachThread::DisableHardwareBreakpoint (const DNBBreakpoint *bp) 65930fdc8d8SChris Lattner { 66030fdc8d8SChris Lattner if (bp != NULL && bp->IsHardware()) 6613af9ea56SGreg Clayton return m_arch_ap->DisableHardwareBreakpoint(bp->GetHardwareIndex()); 66230fdc8d8SChris Lattner return false; 66330fdc8d8SChris Lattner } 66430fdc8d8SChris Lattner 66530fdc8d8SChris Lattner bool 66630fdc8d8SChris Lattner MachThread::DisableHardwareWatchpoint (const DNBBreakpoint *wp) 66730fdc8d8SChris Lattner { 66830fdc8d8SChris Lattner if (wp != NULL && wp->IsHardware()) 6693af9ea56SGreg Clayton return m_arch_ap->DisableHardwareWatchpoint(wp->GetHardwareIndex()); 67030fdc8d8SChris Lattner return false; 67130fdc8d8SChris Lattner } 67230fdc8d8SChris Lattner 67330fdc8d8SChris Lattner bool 67430fdc8d8SChris Lattner MachThread::GetIdentifierInfo () 67530fdc8d8SChris Lattner { 67630fdc8d8SChris Lattner #ifdef THREAD_IDENTIFIER_INFO_COUNT 677f2c6ccf0SJim Ingham // Don't try to get the thread info once and cache it for the life of the thread. It changes over time, for instance 678f2c6ccf0SJim Ingham // if the thread name changes, then the thread_handle also changes... So you have to refetch it every time. 67930fdc8d8SChris Lattner mach_msg_type_number_t count = THREAD_IDENTIFIER_INFO_COUNT; 680f2c6ccf0SJim Ingham kern_return_t kret = ::thread_info (ThreadID(), THREAD_IDENTIFIER_INFO, (thread_info_t) &m_ident_info, &count); 681f2c6ccf0SJim Ingham return kret == KERN_SUCCESS; 68230fdc8d8SChris Lattner #endif 68330fdc8d8SChris Lattner 68430fdc8d8SChris Lattner return false; 68530fdc8d8SChris Lattner } 68630fdc8d8SChris Lattner 68730fdc8d8SChris Lattner 68830fdc8d8SChris Lattner const char * 68930fdc8d8SChris Lattner MachThread::GetName () 69030fdc8d8SChris Lattner { 69130fdc8d8SChris Lattner if (GetIdentifierInfo ()) 69230fdc8d8SChris Lattner { 69330fdc8d8SChris Lattner int len = ::proc_pidinfo (m_process->ProcessID(), PROC_PIDTHREADINFO, m_ident_info.thread_handle, &m_proc_threadinfo, sizeof (m_proc_threadinfo)); 69430fdc8d8SChris Lattner 69530fdc8d8SChris Lattner if (len && m_proc_threadinfo.pth_name[0]) 69630fdc8d8SChris Lattner return m_proc_threadinfo.pth_name; 69730fdc8d8SChris Lattner } 69830fdc8d8SChris Lattner return NULL; 69930fdc8d8SChris Lattner } 70030fdc8d8SChris Lattner 70130fdc8d8SChris Lattner 70230fdc8d8SChris Lattner // 70330fdc8d8SChris Lattner //const char * 70430fdc8d8SChris Lattner //MachThread::GetDispatchQueueName() 70530fdc8d8SChris Lattner //{ 70630fdc8d8SChris Lattner // if (GetIdentifierInfo ()) 70730fdc8d8SChris Lattner // { 70830fdc8d8SChris Lattner // if (m_ident_info.dispatch_qaddr == 0) 70930fdc8d8SChris Lattner // return NULL; 71030fdc8d8SChris Lattner // 71130fdc8d8SChris Lattner // uint8_t memory_buffer[8]; 71230fdc8d8SChris Lattner // DNBDataRef data(memory_buffer, sizeof(memory_buffer), false); 71330fdc8d8SChris Lattner // ModuleSP module_sp(GetProcess()->GetTarget().GetImages().FindFirstModuleForFileSpec (FileSpec("libSystem.B.dylib"))); 71430fdc8d8SChris Lattner // if (module_sp.get() == NULL) 71530fdc8d8SChris Lattner // return NULL; 71630fdc8d8SChris Lattner // 71730fdc8d8SChris Lattner // lldb::addr_t dispatch_queue_offsets_addr = LLDB_INVALID_ADDRESS; 71830fdc8d8SChris Lattner // const Symbol *dispatch_queue_offsets_symbol = module_sp->FindFirstSymbolWithNameAndType (ConstString("dispatch_queue_offsets"), eSymbolTypeData); 71930fdc8d8SChris Lattner // if (dispatch_queue_offsets_symbol) 72030fdc8d8SChris Lattner // dispatch_queue_offsets_addr = dispatch_queue_offsets_symbol->GetValue().GetLoadAddress(GetProcess()); 72130fdc8d8SChris Lattner // 72230fdc8d8SChris Lattner // if (dispatch_queue_offsets_addr == LLDB_INVALID_ADDRESS) 72330fdc8d8SChris Lattner // return NULL; 72430fdc8d8SChris Lattner // 72530fdc8d8SChris Lattner // // Excerpt from src/queue_private.h 72630fdc8d8SChris Lattner // struct dispatch_queue_offsets_s 72730fdc8d8SChris Lattner // { 72830fdc8d8SChris Lattner // uint16_t dqo_version; 72930fdc8d8SChris Lattner // uint16_t dqo_label; 73030fdc8d8SChris Lattner // uint16_t dqo_label_size; 73130fdc8d8SChris Lattner // } dispatch_queue_offsets; 73230fdc8d8SChris Lattner // 73330fdc8d8SChris Lattner // 73430fdc8d8SChris Lattner // if (GetProcess()->ReadMemory (dispatch_queue_offsets_addr, memory_buffer, sizeof(dispatch_queue_offsets)) == sizeof(dispatch_queue_offsets)) 73530fdc8d8SChris Lattner // { 73630fdc8d8SChris Lattner // uint32_t data_offset = 0; 73730fdc8d8SChris Lattner // if (data.GetU16(&data_offset, &dispatch_queue_offsets.dqo_version, sizeof(dispatch_queue_offsets)/sizeof(uint16_t))) 73830fdc8d8SChris Lattner // { 73930fdc8d8SChris Lattner // if (GetProcess()->ReadMemory (m_ident_info.dispatch_qaddr, &memory_buffer, data.GetAddressByteSize()) == data.GetAddressByteSize()) 74030fdc8d8SChris Lattner // { 74130fdc8d8SChris Lattner // data_offset = 0; 74230fdc8d8SChris Lattner // lldb::addr_t queue_addr = data.GetAddress(&data_offset); 74330fdc8d8SChris Lattner // lldb::addr_t label_addr = queue_addr + dispatch_queue_offsets.dqo_label; 74430fdc8d8SChris Lattner // const size_t chunk_size = 32; 74530fdc8d8SChris Lattner // uint32_t label_pos = 0; 74630fdc8d8SChris Lattner // m_dispatch_queue_name.resize(chunk_size, '\0'); 74730fdc8d8SChris Lattner // while (1) 74830fdc8d8SChris Lattner // { 74930fdc8d8SChris Lattner // size_t bytes_read = GetProcess()->ReadMemory (label_addr + label_pos, &m_dispatch_queue_name[label_pos], chunk_size); 75030fdc8d8SChris Lattner // 75130fdc8d8SChris Lattner // if (bytes_read <= 0) 75230fdc8d8SChris Lattner // break; 75330fdc8d8SChris Lattner // 75430fdc8d8SChris Lattner // if (m_dispatch_queue_name.find('\0', label_pos) != std::string::npos) 75530fdc8d8SChris Lattner // break; 75630fdc8d8SChris Lattner // label_pos += bytes_read; 75730fdc8d8SChris Lattner // } 75830fdc8d8SChris Lattner // m_dispatch_queue_name.erase(m_dispatch_queue_name.find('\0')); 75930fdc8d8SChris Lattner // } 76030fdc8d8SChris Lattner // } 76130fdc8d8SChris Lattner // } 76230fdc8d8SChris Lattner // } 76330fdc8d8SChris Lattner // 76430fdc8d8SChris Lattner // if (m_dispatch_queue_name.empty()) 76530fdc8d8SChris Lattner // return NULL; 76630fdc8d8SChris Lattner // return m_dispatch_queue_name.c_str(); 76730fdc8d8SChris Lattner //} 768