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llvm-project/lldb/source/Plugins/Process/Linux/NativeThreadLinux.cpp
Zachary Turner 97206d5727 Rename Error -> Status. 
This renames the LLDB error class to Status, as discussed
on the lldb-dev mailing list.

A change of this magnitude cannot easily be done without
find and replace, but that has potential to catch unwanted
occurrences of common strings such as "Error".  Every effort
was made to find all the obvious things such as the word "Error"
appearing in a string, etc, but it's possible there are still
some lingering occurences left around.  Hopefully nothing too
serious.

llvm-svn: 302872
2017-05-12 04:51:55 +00:00

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//===-- NativeThreadLinux.cpp --------------------------------- -*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "NativeThreadLinux.h"
#include <signal.h>
#include <sstream>
#include "NativeProcessLinux.h"
#include "NativeRegisterContextLinux.h"
#include "SingleStepCheck.h"
#include "lldb/Core/State.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/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_sp(), 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) {
log->Printf("NativeThreadLinux::%s tid %" PRIu64
" in state %s cannot answer stop reason",
__FUNCTION__, GetID(), StateAsCString(m_state));
}
return false;
}
llvm_unreachable("unhandled StateType!");
}
NativeRegisterContextSP NativeThreadLinux::GetRegisterContext() {
// Return the register context if we already created it.
if (m_reg_context_sp)
return m_reg_context_sp;
NativeProcessProtocolSP m_process_sp = m_process_wp.lock();
if (!m_process_sp)
return NativeRegisterContextSP();
ArchSpec target_arch;
if (!m_process_sp->GetArchitecture(target_arch))
return NativeRegisterContextSP();
const uint32_t concrete_frame_idx = 0;
m_reg_context_sp.reset(
NativeRegisterContextLinux::CreateHostNativeRegisterContextLinux(
target_arch, *this, concrete_frame_idx));
return m_reg_context_sp;
}
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;
NativeRegisterContextSP reg_ctx = GetRegisterContext();
uint32_t wp_index = reg_ctx->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 (GetRegisterContext()->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;
NativeRegisterContextSP reg_ctx = GetRegisterContext();
uint32_t bp_index = reg_ctx->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 (GetRegisterContext()->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();
GetRegisterContext()->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();
GetRegisterContext()->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));
if (log)
log->Printf("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));
if (log)
log->Printf("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 << GetRegisterContext()->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 << " " << GetRegisterContext()->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();
if (log)
log->Printf("NativeThreadLinux::%s requesting thread stop(pid: %" PRIu64
", tid: %" PRIu64 ")",
__FUNCTION__, pid, tid);
Status err;
errno = 0;
if (::tgkill(pid, tid, SIGSTOP) != 0) {
err.SetErrorToErrno();
if (log)
log->Printf("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;
NativeProcessProtocolSP m_process_sp = m_process_wp.lock();
lldb::pid_t pid =
m_process_sp ? m_process_sp->GetID() : LLDB_INVALID_PROCESS_ID;
// Log it.
log->Printf("NativeThreadLinux: thread (pid=%" PRIu64 ", tid=%" PRIu64
") changing from state %s to %s",
pid, GetID(), StateAsCString(old_state),
StateAsCString(new_state));
}
NativeProcessLinux &NativeThreadLinux::GetProcess() {
auto process_sp = std::static_pointer_cast<NativeProcessLinux>(
NativeThreadProtocol::GetProcess());
assert(process_sp);
return *process_sp;
}
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