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clang-p2996/lldb/tools/debugserver/source/MacOSX/MachThreadList.cpp
Greg Clayton 3af9ea56d3 Fixed Process::Halt() as it was broken for "process halt" after recent changes 
to the DoHalt down in ProcessGDBRemote. I also moved the functionality that
was in ProcessGDBRemote::DoHalt up into Process::Halt so not every class has
to implement a tricky halt/resume on the internal state thread. The 
functionality is the same as it was before with two changes:
- when we eat the event we now just reuse the event we consume when the private
  state thread is paused and set the interrupted bool on the event if needed
- we also properly update the Process::m_public_state with the state of the
  event we consume.
  
Prior to this, if you issued a "process halt" it would eat the event, not 
update the process state, and then produce a new event with the interrupted
bit set and send it. Anyone listening to the event would get the stopped event
with a process that whose state was set to "running".

Fixed debugserver to not have to be spawned with the architecture of the
inferior process. This worked fine for launching processes, but when attaching
to processes by name or pid without a file in lldb, it would fail.

Now debugserver can support multiple architectures for a native debug session
on the current host. This currently means i386 and x86_64 are supported in
the same binary and a x86_64 debugserver can attach to a i386 executable.
This change involved a lot of changes to make sure we dynamically detect the
correct registers for the inferior process.

llvm-svn: 119680
2010-11-18 05:57:03 +00:00

480 lines
13 KiB
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//===-- MachThreadList.cpp --------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Created by Greg Clayton on 6/19/07.
//
//===----------------------------------------------------------------------===//
#include "MachThreadList.h"
#include <sys/sysctl.h>
#include "DNBLog.h"
#include "DNBThreadResumeActions.h"
#include "MachProcess.h"
MachThreadList::MachThreadList() :
m_threads(),
m_threads_mutex(PTHREAD_MUTEX_RECURSIVE)
{
}
MachThreadList::~MachThreadList()
{
}
// Not thread safe, must lock m_threads_mutex prior to using this function.
uint32_t
MachThreadList::GetThreadIndexByID(thread_t tid) const
{
uint32_t idx = 0;
const uint32_t num_threads = m_threads.size();
for (idx = 0; idx < num_threads; ++idx)
{
if (m_threads[idx]->ThreadID() == tid)
return idx;
}
return ~((uint32_t)0);
}
nub_state_t
MachThreadList::GetState(thread_t tid)
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->GetState();
return eStateInvalid;
}
const char *
MachThreadList::GetName (thread_t tid)
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->GetName();
return NULL;
}
nub_thread_t
MachThreadList::SetCurrentThread(thread_t tid)
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
m_current_thread = m_threads[idx];
if (m_current_thread.get())
return m_current_thread->ThreadID();
return INVALID_NUB_THREAD;
}
bool
MachThreadList::GetThreadStoppedReason(nub_thread_t tid, struct DNBThreadStopInfo *stop_info) const
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->GetStopException().GetStopInfo(stop_info);
return false;
}
bool
MachThreadList::GetIdentifierInfo (nub_thread_t tid, thread_identifier_info_data_t *ident_info)
{
mach_msg_type_number_t count = THREAD_IDENTIFIER_INFO_COUNT;
return ::thread_info (tid, THREAD_IDENTIFIER_INFO, (thread_info_t)ident_info, &count) == KERN_SUCCESS;
}
void
MachThreadList::DumpThreadStoppedReason(nub_thread_t tid) const
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
m_threads[idx]->GetStopException().DumpStopReason();
}
const char *
MachThreadList::GetThreadInfo(nub_thread_t tid) const
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->GetBasicInfoAsString();
return NULL;
}
MachThread *
MachThreadList::GetThreadByID (nub_thread_t tid) const
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx].get();
return NULL;
}
bool
MachThreadList::GetRegisterValue ( nub_thread_t tid, uint32_t reg_set_idx, uint32_t reg_idx, DNBRegisterValue *reg_value ) const
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->GetRegisterValue(reg_set_idx, reg_idx, reg_value);
return false;
}
bool
MachThreadList::SetRegisterValue ( nub_thread_t tid, uint32_t reg_set_idx, uint32_t reg_idx, const DNBRegisterValue *reg_value ) const
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->SetRegisterValue(reg_set_idx, reg_idx, reg_value);
return false;
}
nub_size_t
MachThreadList::GetRegisterContext (nub_thread_t tid, void *buf, size_t buf_len)
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->GetRegisterContext (buf, buf_len);
return 0;
}
nub_size_t
MachThreadList::SetRegisterContext (nub_thread_t tid, const void *buf, size_t buf_len)
{
uint32_t idx = GetThreadIndexByID(tid);
if (idx < m_threads.size())
return m_threads[idx]->SetRegisterContext (buf, buf_len);
return 0;
}
nub_size_t
MachThreadList::NumThreads() const
{
return m_threads.size();
}
nub_thread_t
MachThreadList::ThreadIDAtIndex(nub_size_t idx) const
{
if (idx < m_threads.size())
return m_threads[idx]->ThreadID();
return INVALID_NUB_THREAD;
}
nub_thread_t
MachThreadList::CurrentThreadID ( )
{
MachThreadSP threadSP;
CurrentThread(threadSP);
if (threadSP.get())
return threadSP->ThreadID();
return INVALID_NUB_THREAD;
}
bool
MachThreadList::NotifyException(MachException::Data& exc)
{
uint32_t idx = GetThreadIndexByID(exc.thread_port);
if (idx < m_threads.size())
{
m_threads[idx]->NotifyException(exc);
return true;
}
return false;
}
/*
MachThreadList::const_iterator
MachThreadList::FindThreadByID(thread_t tid) const
{
const_iterator pos;
const_iterator end = m_threads.end();
for (pos = m_threads.begin(); pos != end; ++pos)
{
if (pos->ThreadID() == tid)
return pos;
}
return NULL;
}
*/
void
MachThreadList::Clear()
{
m_threads.clear();
}
uint32_t
MachThreadList::UpdateThreadList(MachProcess *process, bool update)
{
// locker will keep a mutex locked until it goes out of scope
DNBLogThreadedIf (LOG_THREAD, "MachThreadList::UpdateThreadList (pid = %4.4x, update = %u) process stop count = %u", process->ProcessID(), update, process->StopCount());
PTHREAD_MUTEX_LOCKER (locker, m_threads_mutex);
#if defined (__i386__) || defined (__x86_64__)
if (process->StopCount() == 0)
{
int mib[4] = { CTL_KERN, KERN_PROC, KERN_PROC_PID, process->ProcessID() };
struct kinfo_proc processInfo;
size_t bufsize = sizeof(processInfo);
bool is_64_bit = false;
if (sysctl(mib, (unsigned)(sizeof(mib)/sizeof(int)), &processInfo, &bufsize, NULL, 0) == 0 && bufsize > 0)
{
if (processInfo.kp_proc.p_flag & P_LP64)
is_64_bit = true;
}
if (is_64_bit)
DNBArchProtocol::SetDefaultArchitecture(CPU_TYPE_X86_64);
else
DNBArchProtocol::SetDefaultArchitecture(CPU_TYPE_I386);
}
#endif
if (m_threads.empty() || update)
{
thread_array_t thread_list = NULL;
mach_msg_type_number_t thread_list_count = 0;
task_t task = process->Task().TaskPort();
DNBError err(::task_threads (task, &thread_list, &thread_list_count), DNBError::MachKernel);
if (DNBLogCheckLogBit(LOG_THREAD) || err.Fail())
err.LogThreaded("::task_threads ( task = 0x%4.4x, thread_list => %p, thread_list_count => %u )", task, thread_list, thread_list_count);
if (err.Error() == KERN_SUCCESS && thread_list_count > 0)
{
MachThreadList::collection currThreads;
const size_t numOldThreads = m_threads.size();
size_t idx;
// Iterator through the current thread list and see which threads
// we already have in our list (keep them), which ones we don't
// (add them), and which ones are not around anymore (remove them).
for (idx = 0; idx < thread_list_count; ++idx)
{
uint32_t existing_idx = 0;
if (numOldThreads > 0)
existing_idx = GetThreadIndexByID(thread_list[idx]);
if (existing_idx < numOldThreads)
{
// Keep the existing thread class
currThreads.push_back(m_threads[existing_idx]);
}
else
{
// We don't have this thread, lets add it.
MachThreadSP threadSP(new MachThread(process, thread_list[idx]));
// Make sure the thread is ready to be displayed and shown to users
// before we add this thread to our list...
if (threadSP->IsUserReady())
currThreads.push_back(threadSP);
}
}
m_threads.swap(currThreads);
m_current_thread.reset();
// Free the vm memory given to us by ::task_threads()
vm_size_t thread_list_size = (vm_size_t) (thread_list_count * sizeof (thread_t));
::vm_deallocate (::mach_task_self(),
(vm_address_t)thread_list,
thread_list_size);
}
}
return m_threads.size();
}
void
MachThreadList::CurrentThread(MachThreadSP& threadSP)
{
// locker will keep a mutex locked until it goes out of scope
PTHREAD_MUTEX_LOCKER (locker, m_threads_mutex);
if (m_current_thread.get() == NULL)
{
// Figure out which thread is going to be our current thread.
// This is currently done by finding the first thread in the list
// that has a valid exception.
const size_t num_threads = m_threads.size();
size_t idx;
for (idx = 0; idx < num_threads; ++idx)
{
MachThread *thread = m_threads[idx].get();
if (thread->GetStopException().IsValid())
{
m_current_thread = m_threads[idx];
break;
}
}
}
threadSP = m_current_thread;
}
void
MachThreadList::GetRegisterState(int flavor, bool force)
{
uint32_t idx = 0;
const uint32_t num_threads = m_threads.size();
for (idx = 0; idx < num_threads; ++idx)
{
m_threads[idx]->GetRegisterState(flavor, force);
}
}
void
MachThreadList::SetRegisterState(int flavor)
{
uint32_t idx = 0;
const uint32_t num_threads = m_threads.size();
for (idx = 0; idx < num_threads; ++idx)
{
m_threads[idx]->SetRegisterState(flavor);
}
}
void
MachThreadList::Dump() const
{
uint32_t idx = 0;
const uint32_t num_threads = m_threads.size();
for (idx = 0; idx < num_threads; ++idx)
{
m_threads[idx]->Dump(idx);
}
}
void
MachThreadList::ProcessWillResume(MachProcess *process, const DNBThreadResumeActions &thread_actions)
{
uint32_t idx = 0;
const uint32_t num_threads = m_threads.size();
for (idx = 0; idx < num_threads; ++idx)
{
MachThread *thread = m_threads[idx].get();
const DNBThreadResumeAction *thread_action = thread_actions.GetActionForThread (thread->ThreadID(), true);
// There must always be a thread action for every thread.
assert (thread_action);
thread->ThreadWillResume (thread_action);
}
}
uint32_t
MachThreadList::ProcessDidStop(MachProcess *process)
{
// Update our thread list
const uint32_t num_threads = UpdateThreadList(process, true);
uint32_t idx = 0;
for (idx = 0; idx < num_threads; ++idx)
{
m_threads[idx]->ThreadDidStop();
}
return num_threads;
}
//----------------------------------------------------------------------
// Check each thread in our thread list to see if we should notify our
// client of the current halt in execution.
//
// Breakpoints can have callback functions associated with them than
// can return true to stop, or false to continue executing the inferior.
//
// RETURNS
// true if we should stop and notify our clients
// false if we should resume our child process and skip notification
//----------------------------------------------------------------------
bool
MachThreadList::ShouldStop(bool &step_more)
{
uint32_t should_stop = false;
const uint32_t num_threads = m_threads.size();
uint32_t idx = 0;
for (idx = 0; !should_stop && idx < num_threads; ++idx)
{
should_stop = m_threads[idx]->ShouldStop(step_more);
}
return should_stop;
}
void
MachThreadList::NotifyBreakpointChanged (const DNBBreakpoint *bp)
{
uint32_t idx = 0;
const uint32_t num_threads = m_threads.size();
for (idx = 0; idx < num_threads; ++idx)
{
m_threads[idx]->NotifyBreakpointChanged(bp);
}
}
uint32_t
MachThreadList::EnableHardwareBreakpoint (const DNBBreakpoint* bp) const
{
if (bp != NULL)
{
uint32_t idx = GetThreadIndexByID(bp->ThreadID());
if (idx < m_threads.size())
return m_threads[idx]->EnableHardwareBreakpoint(bp);
}
return INVALID_NUB_HW_INDEX;
}
bool
MachThreadList::DisableHardwareBreakpoint (const DNBBreakpoint* bp) const
{
if (bp != NULL)
{
uint32_t idx = GetThreadIndexByID(bp->ThreadID());
if (idx < m_threads.size())
return m_threads[idx]->DisableHardwareBreakpoint(bp);
}
return false;
}
uint32_t
MachThreadList::EnableHardwareWatchpoint (const DNBBreakpoint* wp) const
{
if (wp != NULL)
{
uint32_t idx = GetThreadIndexByID(wp->ThreadID());
if (idx < m_threads.size())
return m_threads[idx]->EnableHardwareWatchpoint(wp);
}
return INVALID_NUB_HW_INDEX;
}
bool
MachThreadList::DisableHardwareWatchpoint (const DNBBreakpoint* wp) const
{
if (wp != NULL)
{
uint32_t idx = GetThreadIndexByID(wp->ThreadID());
if (idx < m_threads.size())
return m_threads[idx]->DisableHardwareWatchpoint(wp);
}
return false;
}
uint32_t
MachThreadList::GetThreadIndexForThreadStoppedWithSignal (const int signo) const
{
uint32_t should_stop = false;
const uint32_t num_threads = m_threads.size();
uint32_t idx = 0;
for (idx = 0; !should_stop && idx < num_threads; ++idx)
{
if (m_threads[idx]->GetStopException().SoftSignal () == signo)
return idx;
}
return UINT32_MAX;
}
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