reference, declarationdefinition
definition → references, declarations, derived classes, virtual overrides
reference to multiple definitions → definitions
unreferenced
    1
    2
    3
    4
    5
    6
    7
    8
    9
   10
   11
   12
   13
   14
   15
   16
   17
   18
   19
   20
   21
   22
   23
   24
   25
   26
   27
   28
   29
   30
   31
   32
   33
   34
   35
   36
   37
   38
   39
   40
   41
   42
   43
   44
   45
   46
   47
   48
   49
   50
   51
   52
   53
   54
   55
   56
   57
   58
   59
   60
   61
   62
   63
   64
   65
   66
   67
   68
   69
   70
   71
   72
   73
   74
   75
   76
   77
   78
   79
   80
   81
   82
   83
   84
   85
   86
   87
   88
   89
   90
   91
   92
   93
   94
   95
   96
   97
   98
   99
  100
  101
  102
  103
  104
  105
  106
  107
  108
  109
  110
  111
  112
  113
  114
  115
  116
  117
  118
  119
  120
  121
  122
  123
  124
  125
  126
  127
  128
  129
  130
  131
  132
  133
  134
  135
  136
  137
  138
  139
  140
  141
  142
  143
  144
  145
  146
  147
  148
  149
  150
  151
  152
  153
  154
  155
  156
  157
  158
  159
  160
  161
  162
  163
  164
  165
  166
  167
  168
  169
  170
  171
  172
  173
  174
  175
  176
  177
  178
  179
  180
  181
  182
  183
  184
  185
  186
  187
  188
  189
  190
  191
  192
  193
  194
  195
  196
  197
  198
  199
  200
  201
  202
  203
  204
  205
  206
  207
  208
  209
  210
  211
  212
  213
  214
  215
  216
  217
  218
  219
  220
  221
  222
  223
  224
  225
  226
  227
  228
  229
  230
  231
  232
  233
  234
  235
  236
  237
  238
  239
  240
  241
  242
  243
  244
  245
  246
  247
  248
  249
  250
  251
  252
  253
  254
  255
  256
  257
  258
  259
  260
  261
  262
  263
  264
  265
  266
  267
  268
  269
  270
  271
  272
  273
  274
  275
  276
  277
  278
  279
  280
  281
  282
  283
  284
  285
  286
  287
  288
  289
  290
  291
  292
  293
  294
  295
  296
  297
  298
  299
  300
  301
  302
  303
  304
  305
  306
  307
  308
  309
  310
  311
  312
  313
  314
  315
  316
  317
  318
  319
  320
  321
  322
  323
  324
  325
  326
  327
  328
  329
  330
  331
  332
  333
  334
  335
  336
  337
  338
  339
  340
  341
  342
  343
  344
  345
  346
  347
  348
  349
  350
  351
  352
  353
  354
  355
  356
  357
  358
  359
  360
  361
  362
  363
  364
  365
  366
  367
  368
  369
  370
  371
  372
  373
  374
  375
  376
  377
  378
  379
  380
  381
  382
  383
  384
  385
  386
  387
  388
  389
  390
  391
  392
  393
  394
  395
  396
  397
  398
  399
  400
  401
  402
  403
  404
  405
  406
  407
  408
  409
  410
  411
  412
  413
  414
  415
  416
  417
  418
  419
  420
  421
  422
  423
  424
  425
  426
  427
  428
  429
  430
  431
  432
  433
  434
  435
  436
  437
  438
  439
  440
  441
  442
  443
  444
  445
  446
  447
  448
  449
//===-- NativeThreadLinux.cpp --------------------------------- -*- C++ -*-===//
//
// 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 "NativeThreadLinux.h"

#include <signal.h>
#include <sstream>

#include "NativeProcessLinux.h"
#include "NativeRegisterContextLinux.h"
#include "SingleStepCheck.h"

#include "lldb/Host/HostNativeThread.h"
#include "lldb/Host/linux/Ptrace.h"
#include "lldb/Host/linux/Support.h"
#include "lldb/Utility/LLDBAssert.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/State.h"
#include "lldb/lldb-enumerations.h"

#include "llvm/ADT/SmallString.h"

#include "Plugins/Process/POSIX/CrashReason.h"

#include <sys/syscall.h>
// Try to define a macro to encapsulate the tgkill syscall
#define tgkill(pid, tid, sig)                                                  \
  syscall(__NR_tgkill, static_cast<::pid_t>(pid), static_cast<::pid_t>(tid),   \
          sig)

using namespace lldb;
using namespace lldb_private;
using namespace lldb_private::process_linux;

namespace {
void LogThreadStopInfo(Log &log, const ThreadStopInfo &stop_info,
                       const char *const header) {
  switch (stop_info.reason) {
  case eStopReasonNone:
    log.Printf("%s: %s no stop reason", __FUNCTION__, header);
    return;
  case eStopReasonTrace:
    log.Printf("%s: %s trace, stopping signal 0x%" PRIx32, __FUNCTION__, header,
               stop_info.details.signal.signo);
    return;
  case eStopReasonBreakpoint:
    log.Printf("%s: %s breakpoint, stopping signal 0x%" PRIx32, __FUNCTION__,
               header, stop_info.details.signal.signo);
    return;
  case eStopReasonWatchpoint:
    log.Printf("%s: %s watchpoint, stopping signal 0x%" PRIx32, __FUNCTION__,
               header, stop_info.details.signal.signo);
    return;
  case eStopReasonSignal:
    log.Printf("%s: %s signal 0x%02" PRIx32, __FUNCTION__, header,
               stop_info.details.signal.signo);
    return;
  case eStopReasonException:
    log.Printf("%s: %s exception type 0x%02" PRIx64, __FUNCTION__, header,
               stop_info.details.exception.type);
    return;
  case eStopReasonExec:
    log.Printf("%s: %s exec, stopping signal 0x%" PRIx32, __FUNCTION__, header,
               stop_info.details.signal.signo);
    return;
  case eStopReasonPlanComplete:
    log.Printf("%s: %s plan complete", __FUNCTION__, header);
    return;
  case eStopReasonThreadExiting:
    log.Printf("%s: %s thread exiting", __FUNCTION__, header);
    return;
  case eStopReasonInstrumentation:
    log.Printf("%s: %s instrumentation", __FUNCTION__, header);
    return;
  default:
    log.Printf("%s: %s invalid stop reason %" PRIu32, __FUNCTION__, header,
               static_cast<uint32_t>(stop_info.reason));
  }
}
}

NativeThreadLinux::NativeThreadLinux(NativeProcessLinux &process,
                                     lldb::tid_t tid)
    : NativeThreadProtocol(process, tid), m_state(StateType::eStateInvalid),
      m_stop_info(),
      m_reg_context_up(
          NativeRegisterContextLinux::CreateHostNativeRegisterContextLinux(
              process.GetArchitecture(), *this)),
      m_stop_description() {}

std::string NativeThreadLinux::GetName() {
  NativeProcessLinux &process = GetProcess();

  auto BufferOrError = getProcFile(process.GetID(), GetID(), "comm");
  if (!BufferOrError)
    return "";
  return BufferOrError.get()->getBuffer().rtrim('\n');
}

lldb::StateType NativeThreadLinux::GetState() { return m_state; }

bool NativeThreadLinux::GetStopReason(ThreadStopInfo &stop_info,
                                      std::string &description) {
  Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));

  description.clear();

  switch (m_state) {
  case eStateStopped:
  case eStateCrashed:
  case eStateExited:
  case eStateSuspended:
  case eStateUnloaded:
    if (log)
      LogThreadStopInfo(*log, m_stop_info, "m_stop_info in thread:");
    stop_info = m_stop_info;
    description = m_stop_description;
    if (log)
      LogThreadStopInfo(*log, stop_info, "returned stop_info:");

    return true;

  case eStateInvalid:
  case eStateConnected:
  case eStateAttaching:
  case eStateLaunching:
  case eStateRunning:
  case eStateStepping:
  case eStateDetached:
    if (log) {
      LLDB_LOGF(log,
                "NativeThreadLinux::%s tid %" PRIu64
                " in state %s cannot answer stop reason",
                __FUNCTION__, GetID(), StateAsCString(m_state));
    }
    return false;
  }
  llvm_unreachable("unhandled StateType!");
}

Status NativeThreadLinux::SetWatchpoint(lldb::addr_t addr, size_t size,
                                        uint32_t watch_flags, bool hardware) {
  if (!hardware)
    return Status("not implemented");
  if (m_state == eStateLaunching)
    return Status();
  Status error = RemoveWatchpoint(addr);
  if (error.Fail())
    return error;
  uint32_t wp_index =
      m_reg_context_up->SetHardwareWatchpoint(addr, size, watch_flags);
  if (wp_index == LLDB_INVALID_INDEX32)
    return Status("Setting hardware watchpoint failed.");
  m_watchpoint_index_map.insert({addr, wp_index});
  return Status();
}

Status NativeThreadLinux::RemoveWatchpoint(lldb::addr_t addr) {
  auto wp = m_watchpoint_index_map.find(addr);
  if (wp == m_watchpoint_index_map.end())
    return Status();
  uint32_t wp_index = wp->second;
  m_watchpoint_index_map.erase(wp);
  if (m_reg_context_up->ClearHardwareWatchpoint(wp_index))
    return Status();
  return Status("Clearing hardware watchpoint failed.");
}

Status NativeThreadLinux::SetHardwareBreakpoint(lldb::addr_t addr,
                                                size_t size) {
  if (m_state == eStateLaunching)
    return Status();

  Status error = RemoveHardwareBreakpoint(addr);
  if (error.Fail())
    return error;

  uint32_t bp_index = m_reg_context_up->SetHardwareBreakpoint(addr, size);

  if (bp_index == LLDB_INVALID_INDEX32)
    return Status("Setting hardware breakpoint failed.");

  m_hw_break_index_map.insert({addr, bp_index});
  return Status();
}

Status NativeThreadLinux::RemoveHardwareBreakpoint(lldb::addr_t addr) {
  auto bp = m_hw_break_index_map.find(addr);
  if (bp == m_hw_break_index_map.end())
    return Status();

  uint32_t bp_index = bp->second;
  if (m_reg_context_up->ClearHardwareBreakpoint(bp_index)) {
    m_hw_break_index_map.erase(bp);
    return Status();
  }

  return Status("Clearing hardware breakpoint failed.");
}

Status NativeThreadLinux::Resume(uint32_t signo) {
  const StateType new_state = StateType::eStateRunning;
  MaybeLogStateChange(new_state);
  m_state = new_state;

  m_stop_info.reason = StopReason::eStopReasonNone;
  m_stop_description.clear();

  // If watchpoints have been set, but none on this thread, then this is a new
  // thread. So set all existing watchpoints.
  if (m_watchpoint_index_map.empty()) {
    NativeProcessLinux &process = GetProcess();

    const auto &watchpoint_map = process.GetWatchpointMap();
    m_reg_context_up->ClearAllHardwareWatchpoints();
    for (const auto &pair : watchpoint_map) {
      const auto &wp = pair.second;
      SetWatchpoint(wp.m_addr, wp.m_size, wp.m_watch_flags, wp.m_hardware);
    }
  }

  // Set all active hardware breakpoint on all threads.
  if (m_hw_break_index_map.empty()) {
    NativeProcessLinux &process = GetProcess();

    const auto &hw_breakpoint_map = process.GetHardwareBreakpointMap();
    m_reg_context_up->ClearAllHardwareBreakpoints();
    for (const auto &pair : hw_breakpoint_map) {
      const auto &bp = pair.second;
      SetHardwareBreakpoint(bp.m_addr, bp.m_size);
    }
  }

  intptr_t data = 0;

  if (signo != LLDB_INVALID_SIGNAL_NUMBER)
    data = signo;

  return NativeProcessLinux::PtraceWrapper(PTRACE_CONT, GetID(), nullptr,
                                           reinterpret_cast<void *>(data));
}

Status NativeThreadLinux::SingleStep(uint32_t signo) {
  const StateType new_state = StateType::eStateStepping;
  MaybeLogStateChange(new_state);
  m_state = new_state;
  m_stop_info.reason = StopReason::eStopReasonNone;

  if(!m_step_workaround) {
    // If we already hava a workaround inplace, don't reset it. Otherwise, the
    // destructor of the existing instance will run after the new instance has
    // fetched the cpu mask, and the thread will end up with the wrong mask.
    m_step_workaround = SingleStepWorkaround::Get(m_tid);
  }

  intptr_t data = 0;
  if (signo != LLDB_INVALID_SIGNAL_NUMBER)
    data = signo;

  // If hardware single-stepping is not supported, we just do a continue. The
  // breakpoint on the next instruction has been setup in
  // NativeProcessLinux::Resume.
  return NativeProcessLinux::PtraceWrapper(
      GetProcess().SupportHardwareSingleStepping() ? PTRACE_SINGLESTEP
                                                   : PTRACE_CONT,
      m_tid, nullptr, reinterpret_cast<void *>(data));
}

void NativeThreadLinux::SetStoppedBySignal(uint32_t signo,
                                           const siginfo_t *info) {
  Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
  LLDB_LOGF(log, "NativeThreadLinux::%s called with signal 0x%02" PRIx32,
            __FUNCTION__, signo);

  SetStopped();

  m_stop_info.reason = StopReason::eStopReasonSignal;
  m_stop_info.details.signal.signo = signo;

  m_stop_description.clear();
  if (info) {
    switch (signo) {
    case SIGSEGV:
    case SIGBUS:
    case SIGFPE:
    case SIGILL:
      // In case of MIPS64 target, SI_KERNEL is generated for invalid 64bit
      // address.
      const auto reason =
          (info->si_signo == SIGBUS && info->si_code == SI_KERNEL)
              ? CrashReason::eInvalidAddress
              : GetCrashReason(*info);
      m_stop_description = GetCrashReasonString(reason, *info);
      break;
    }
  }
}

bool NativeThreadLinux::IsStopped(int *signo) {
  if (!StateIsStoppedState(m_state, false))
    return false;

  // If we are stopped by a signal, return the signo.
  if (signo && m_state == StateType::eStateStopped &&
      m_stop_info.reason == StopReason::eStopReasonSignal) {
    *signo = m_stop_info.details.signal.signo;
  }

  // Regardless, we are stopped.
  return true;
}

void NativeThreadLinux::SetStopped() {
  if (m_state == StateType::eStateStepping)
    m_step_workaround.reset();

  const StateType new_state = StateType::eStateStopped;
  MaybeLogStateChange(new_state);
  m_state = new_state;
  m_stop_description.clear();
}

void NativeThreadLinux::SetStoppedByExec() {
  Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
  LLDB_LOGF(log, "NativeThreadLinux::%s()", __FUNCTION__);

  SetStopped();

  m_stop_info.reason = StopReason::eStopReasonExec;
  m_stop_info.details.signal.signo = SIGSTOP;
}

void NativeThreadLinux::SetStoppedByBreakpoint() {
  SetStopped();

  m_stop_info.reason = StopReason::eStopReasonBreakpoint;
  m_stop_info.details.signal.signo = SIGTRAP;
  m_stop_description.clear();
}

void NativeThreadLinux::SetStoppedByWatchpoint(uint32_t wp_index) {
  SetStopped();

  lldbassert(wp_index != LLDB_INVALID_INDEX32 && "wp_index cannot be invalid");

  std::ostringstream ostr;
  ostr << m_reg_context_up->GetWatchpointAddress(wp_index) << " ";
  ostr << wp_index;

  /*
   * MIPS: Last 3bits of the watchpoint address are masked by the kernel. For
   * example:
   * 'n' is at 0x120010d00 and 'm' is 0x120010d04. When a watchpoint is set at
   * 'm', then
   * watch exception is generated even when 'n' is read/written. To handle this
   * case,
   * find the base address of the load/store instruction and append it in the
   * stop-info
   * packet.
  */
  ostr << " " << m_reg_context_up->GetWatchpointHitAddress(wp_index);

  m_stop_description = ostr.str();

  m_stop_info.reason = StopReason::eStopReasonWatchpoint;
  m_stop_info.details.signal.signo = SIGTRAP;
}

bool NativeThreadLinux::IsStoppedAtBreakpoint() {
  return GetState() == StateType::eStateStopped &&
         m_stop_info.reason == StopReason::eStopReasonBreakpoint;
}

bool NativeThreadLinux::IsStoppedAtWatchpoint() {
  return GetState() == StateType::eStateStopped &&
         m_stop_info.reason == StopReason::eStopReasonWatchpoint;
}

void NativeThreadLinux::SetStoppedByTrace() {
  SetStopped();

  m_stop_info.reason = StopReason::eStopReasonTrace;
  m_stop_info.details.signal.signo = SIGTRAP;
}

void NativeThreadLinux::SetStoppedWithNoReason() {
  SetStopped();

  m_stop_info.reason = StopReason::eStopReasonNone;
  m_stop_info.details.signal.signo = 0;
}

void NativeThreadLinux::SetExited() {
  const StateType new_state = StateType::eStateExited;
  MaybeLogStateChange(new_state);
  m_state = new_state;

  m_stop_info.reason = StopReason::eStopReasonThreadExiting;
}

Status NativeThreadLinux::RequestStop() {
  Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));

  NativeProcessLinux &process = GetProcess();

  lldb::pid_t pid = process.GetID();
  lldb::tid_t tid = GetID();

  LLDB_LOGF(log,
            "NativeThreadLinux::%s requesting thread stop(pid: %" PRIu64
            ", tid: %" PRIu64 ")",
            __FUNCTION__, pid, tid);

  Status err;
  errno = 0;
  if (::tgkill(pid, tid, SIGSTOP) != 0) {
    err.SetErrorToErrno();
    LLDB_LOGF(log,
              "NativeThreadLinux::%s tgkill(%" PRIu64 ", %" PRIu64
              ", SIGSTOP) failed: %s",
              __FUNCTION__, pid, tid, err.AsCString());
  }

  return err;
}

void NativeThreadLinux::MaybeLogStateChange(lldb::StateType new_state) {
  Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
  // If we're not logging, we're done.
  if (!log)
    return;

  // If this is a state change to the same state, we're done.
  lldb::StateType old_state = m_state;
  if (new_state == old_state)
    return;

  LLDB_LOG(log, "pid={0}, tid={1}: changing from state {2} to {3}",
           m_process.GetID(), GetID(), old_state, new_state);
}

NativeProcessLinux &NativeThreadLinux::GetProcess() {
  return static_cast<NativeProcessLinux &>(m_process);
}