llvm-project/lldb/source/API/SBFrame.cpp

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//===-- SBFrame.cpp ---------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lldb/API/SBFrame.h"
#include <string>
#include <algorithm>
#include "lldb/lldb-types.h"
#include "lldb/Core/Address.h"
#include "lldb/Core/ConstString.h"
#include "lldb/Core/Log.h"
#include "lldb/Core/Stream.h"
#include "lldb/Core/StreamFile.h"
#include "lldb/Core/ValueObjectRegister.h"
#include "lldb/Core/ValueObjectVariable.h"
#include "lldb/Expression/ClangUserExpression.h"
#include "lldb/Host/Host.h"
#include "lldb/Symbol/Block.h"
#include "lldb/Symbol/SymbolContext.h"
#include "lldb/Symbol/VariableList.h"
#include "lldb/Symbol/Variable.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/RegisterContext.h"
#include "lldb/Target/StackFrame.h"
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
#include "lldb/Target/StackID.h"
#include "lldb/Target/Thread.h"
#include "lldb/API/SBDebugger.h"
#include "lldb/API/SBValue.h"
#include "lldb/API/SBAddress.h"
#include "lldb/API/SBStream.h"
#include "lldb/API/SBSymbolContext.h"
#include "lldb/API/SBThread.h"
using namespace lldb;
using namespace lldb_private;
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
SBFrame::SBFrame () :
m_opaque_sp (new ExecutionContextRef())
{
}
SBFrame::SBFrame (const StackFrameSP &lldb_object_sp) :
m_opaque_sp (new ExecutionContextRef (lldb_object_sp))
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
if (log)
{
SBStream sstr;
GetDescription (sstr);
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log->Printf ("SBFrame::SBFrame (sp=%p) => SBFrame(%p): %s",
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
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lldb_object_sp.get(), lldb_object_sp.get(), sstr.GetData());
}
}
SBFrame::SBFrame(const SBFrame &rhs) :
m_opaque_sp (new ExecutionContextRef (*rhs.m_opaque_sp))
{
}
const SBFrame &
SBFrame::operator = (const SBFrame &rhs)
{
if (this != &rhs)
*m_opaque_sp = *rhs.m_opaque_sp;
return *this;
}
SBFrame::~SBFrame()
{
}
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
StackFrameSP
SBFrame::GetFrameSP() const
{
if (m_opaque_sp)
return m_opaque_sp->GetFrameSP();
return StackFrameSP();
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
}
void
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
SBFrame::SetFrameSP (const StackFrameSP &lldb_object_sp)
{
return m_opaque_sp->SetFrameSP(lldb_object_sp);
}
bool
SBFrame::IsValid() const
{
return GetFrameSP().get() != NULL;
}
SBSymbolContext
SBFrame::GetSymbolContext (uint32_t resolve_scope) const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBSymbolContext sb_sym_ctx;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_sym_ctx.SetSymbolContext(&frame->GetSymbolContext (resolve_scope));
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetSymbolContext () => error: process is running", frame);
}
}
if (log)
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log->Printf ("SBFrame(%p)::GetSymbolContext (resolve_scope=0x%8.8x) => SBSymbolContext(%p)",
frame, resolve_scope, sb_sym_ctx.get());
return sb_sym_ctx;
}
SBModule
SBFrame::GetModule () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBModule sb_module;
ModuleSP module_sp;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
module_sp = frame->GetSymbolContext (eSymbolContextModule).module_sp;
sb_module.SetSP (module_sp);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetModule () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetModule () => SBModule(%p)",
frame, module_sp.get());
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return sb_module;
}
SBCompileUnit
SBFrame::GetCompileUnit () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBCompileUnit sb_comp_unit;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_comp_unit.reset (frame->GetSymbolContext (eSymbolContextCompUnit).comp_unit);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetCompileUnit () => error: process is running", frame);
}
}
if (log)
log->Printf ("SBFrame(%p)::GetCompileUnit () => SBCompileUnit(%p)",
frame, sb_comp_unit.get());
return sb_comp_unit;
}
SBFunction
SBFrame::GetFunction () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBFunction sb_function;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_function.reset(frame->GetSymbolContext (eSymbolContextFunction).function);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetFunction () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetFunction () => SBFunction(%p)",
frame, sb_function.get());
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return sb_function;
}
SBSymbol
SBFrame::GetSymbol () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBSymbol sb_symbol;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_symbol.reset(frame->GetSymbolContext (eSymbolContextSymbol).symbol);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetSymbol () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetSymbol () => SBSymbol(%p)",
frame, sb_symbol.get());
return sb_symbol;
}
SBBlock
SBFrame::GetBlock () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBBlock sb_block;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_block.SetPtr (frame->GetSymbolContext (eSymbolContextBlock).block);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetBlock () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetBlock () => SBBlock(%p)",
frame, sb_block.GetPtr());
return sb_block;
}
SBBlock
SBFrame::GetFrameBlock () const
{
SBBlock sb_block;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_block.SetPtr(frame->GetFrameBlock ());
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetFrameBlock () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetFrameBlock () => SBBlock(%p)",
frame, sb_block.GetPtr());
return sb_block;
}
SBLineEntry
SBFrame::GetLineEntry () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBLineEntry sb_line_entry;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_line_entry.SetLineEntry (frame->GetSymbolContext (eSymbolContextLineEntry).line_entry);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetLineEntry () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetLineEntry () => SBLineEntry(%p)",
frame, sb_line_entry.get());
return sb_line_entry;
}
uint32_t
SBFrame::GetFrameID () const
{
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
uint32_t frame_idx = UINT32_MAX;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
if (frame)
frame_idx = frame->GetFrameIndex ();
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LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
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if (log)
log->Printf ("SBFrame(%p)::GetFrameID () => %u",
frame, frame_idx);
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return frame_idx;
}
addr_t
SBFrame::GetPC () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
addr_t addr = LLDB_INVALID_ADDRESS;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
addr = frame->GetFrameCodeAddress().GetOpcodeLoadAddress (target);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetPC () => error: process is running", frame);
}
}
if (log)
log->Printf ("SBFrame(%p)::GetPC () => 0x%llx", frame, addr);
return addr;
}
bool
SBFrame::SetPC (addr_t new_pc)
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
bool ret_val = false;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
ret_val = frame->GetRegisterContext()->SetPC (new_pc);
}
else
{
if (log)
log->Printf ("SBFrame(%p)::SetPC () => error: process is running", frame);
}
}
if (log)
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log->Printf ("SBFrame(%p)::SetPC (new_pc=0x%llx) => %i",
frame, new_pc, ret_val);
return ret_val;
}
addr_t
SBFrame::GetSP () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
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addr_t addr = LLDB_INVALID_ADDRESS;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
addr = frame->GetRegisterContext()->GetSP();
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetSP () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetSP () => 0x%llx", frame, addr);
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return addr;
}
addr_t
SBFrame::GetFP () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
addr_t addr = LLDB_INVALID_ADDRESS;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
addr = frame->GetRegisterContext()->GetFP();
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetFP () => error: process is running", frame);
}
}
if (log)
log->Printf ("SBFrame(%p)::GetFP () => 0x%llx", frame, addr);
return addr;
}
SBAddress
SBFrame::GetPCAddress () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBAddress sb_addr;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
sb_addr.SetAddress (&frame->GetFrameCodeAddress());
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetPCAddress () => error: process is running", frame);
}
}
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if (log)
log->Printf ("SBFrame(%p)::GetPCAddress () => SBAddress(%p)", frame, sb_addr.get());
return sb_addr;
}
void
SBFrame::Clear()
{
m_opaque_sp->Clear();
}
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
lldb::SBValue
SBFrame::GetValueForVariablePath (const char *var_path)
{
SBValue sb_value;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
{
lldb::DynamicValueType use_dynamic = frame->CalculateTarget()->GetPreferDynamicValue();
sb_value = GetValueForVariablePath (var_path, use_dynamic);
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
}
return sb_value;
}
lldb::SBValue
SBFrame::GetValueForVariablePath (const char *var_path, DynamicValueType use_dynamic)
{
SBValue sb_value;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target && var_path && var_path[0])
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
VariableSP var_sp;
Error error;
ValueObjectSP value_sp (frame->GetValueForVariableExpressionPath (var_path,
use_dynamic,
StackFrame::eExpressionPathOptionCheckPtrVsMember | StackFrame::eExpressionPathOptionsAllowDirectIVarAccess,
var_sp,
error));
sb_value.SetSP(value_sp);
}
else
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
if (log)
log->Printf ("SBFrame(%p)::GetValueForVariablePath () => error: process is running", frame);
}
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
}
return sb_value;
}
SBValue
SBFrame::FindVariable (const char *name)
{
SBValue value;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
lldb::DynamicValueType use_dynamic = frame->CalculateTarget()->GetPreferDynamicValue();
value = FindVariable (name, use_dynamic);
}
return value;
}
Expose more convenience functionality in the python classes. lldb.SBValueList now exposes the len() method and also allows item access: lldb.SBValueList[<int>] - where <int> is an integer index into the list, returns a single lldb.SBValue which might be empty if the index is out of range lldb.SBValueList[<str>] - where <str> is the name to look for, returns a list() of lldb.SBValue objects with any matching values (the list might be empty if nothing matches) lldb.SBValueList[<re>] - where <re> is a compiles regular expression, returns a list of lldb.SBValue objects for containing any matches or a empty list if nothing matches lldb.SBFrame now exposes: lldb.SBFrame.variables => SBValueList of all variables that are in scope lldb.SBFrame.vars => see lldb.SBFrame.variables lldb.SBFrame.locals => SBValueList of all variables that are locals in the current frame lldb.SBFrame.arguments => SBValueList of all variables that are arguments in the current frame lldb.SBFrame.args => see lldb.SBFrame.arguments lldb.SBFrame.statics => SBValueList of all static variables lldb.SBFrame.registers => SBValueList of all registers for the current frame lldb.SBFrame.regs => see lldb.SBFrame.registers Combine any of the above properties with the new lldb.SBValueList functionality and now you can do: y = lldb.frame.vars['rect.origin.y'] or vars = lldb.frame.vars for i in range len(vars): print vars[i] Also expose "lldb.SBFrame.var(<str>)" where <str> can be en expression path for any variable or child within the variable. This makes it easier to get a value from the current frame like "rect.origin.y". The resulting value is also not a constant result as expressions will return, but a live value that will continue to track the current value for the variable expression path. lldb.SBValue now exposes: lldb.SBValue.unsigned => unsigned integer for the value lldb.SBValue.signed => a signed integer for the value llvm-svn: 149684
2012-02-03 15:02:37 +08:00
SBValue
SBFrame::FindVariable (const char *name, lldb::DynamicValueType use_dynamic)
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
VariableSP var_sp;
SBValue sb_value;
ValueObjectSP value_sp;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target && name && name[0])
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
VariableList variable_list;
Mutex::Locker api_locker (target->GetAPIMutex());
SymbolContext sc (frame->GetSymbolContext (eSymbolContextBlock));
if (sc.block)
{
const bool can_create = true;
const bool get_parent_variables = true;
const bool stop_if_block_is_inlined_function = true;
if (sc.block->AppendVariables (can_create,
get_parent_variables,
stop_if_block_is_inlined_function,
&variable_list))
{
var_sp = variable_list.FindVariable (ConstString(name));
}
}
if (var_sp)
{
value_sp = frame->GetValueObjectForFrameVariable(var_sp, use_dynamic);
sb_value.SetSP(value_sp);
}
}
else
{
if (log)
log->Printf ("SBFrame(%p)::FindVariable () => error: process is running", frame);
}
}
2010-10-30 12:51:46 +08:00
if (log)
log->Printf ("SBFrame(%p)::FindVariable (name=\"%s\") => SBValue(%p)",
frame, name, value_sp.get());
2010-10-30 12:51:46 +08:00
return sb_value;
}
SBValue
SBFrame::FindValue (const char *name, ValueType value_type)
{
SBValue value;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
lldb::DynamicValueType use_dynamic = frame->CalculateTarget()->GetPreferDynamicValue();
value = FindValue (name, value_type, use_dynamic);
}
return value;
}
SBValue
SBFrame::FindValue (const char *name, ValueType value_type, lldb::DynamicValueType use_dynamic)
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBValue sb_value;
ValueObjectSP value_sp;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target && name && name[0])
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
switch (value_type)
{
case eValueTypeVariableGlobal: // global variable
case eValueTypeVariableStatic: // static variable
case eValueTypeVariableArgument: // function argument variables
case eValueTypeVariableLocal: // function local variables
{
VariableList *variable_list = frame->GetVariableList(true);
SymbolContext sc (frame->GetSymbolContext (eSymbolContextBlock));
const bool can_create = true;
const bool get_parent_variables = true;
const bool stop_if_block_is_inlined_function = true;
if (sc.block && sc.block->AppendVariables (can_create,
get_parent_variables,
stop_if_block_is_inlined_function,
variable_list))
{
ConstString const_name(name);
const uint32_t num_variables = variable_list->GetSize();
for (uint32_t i = 0; i < num_variables; ++i)
{
VariableSP variable_sp (variable_list->GetVariableAtIndex(i));
if (variable_sp &&
variable_sp->GetScope() == value_type &&
variable_sp->GetName() == const_name)
{
value_sp = frame->GetValueObjectForFrameVariable (variable_sp, use_dynamic);
sb_value.SetSP (value_sp);
break;
}
}
}
}
break;
case eValueTypeRegister: // stack frame register value
{
RegisterContextSP reg_ctx (frame->GetRegisterContext());
if (reg_ctx)
{
const uint32_t num_regs = reg_ctx->GetRegisterCount();
for (uint32_t reg_idx = 0; reg_idx < num_regs; ++reg_idx)
{
const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoAtIndex (reg_idx);
if (reg_info &&
((reg_info->name && strcasecmp (reg_info->name, name) == 0) ||
(reg_info->alt_name && strcasecmp (reg_info->alt_name, name) == 0)))
{
value_sp = ValueObjectRegister::Create (frame, reg_ctx, reg_idx);
sb_value.SetSP (value_sp);
break;
}
}
}
}
break;
case eValueTypeRegisterSet: // A collection of stack frame register values
{
RegisterContextSP reg_ctx (frame->GetRegisterContext());
if (reg_ctx)
{
const uint32_t num_sets = reg_ctx->GetRegisterSetCount();
for (uint32_t set_idx = 0; set_idx < num_sets; ++set_idx)
{
const RegisterSet *reg_set = reg_ctx->GetRegisterSet (set_idx);
if (reg_set &&
((reg_set->name && strcasecmp (reg_set->name, name) == 0) ||
(reg_set->short_name && strcasecmp (reg_set->short_name, name) == 0)))
{
value_sp = ValueObjectRegisterSet::Create (frame, reg_ctx, set_idx);
sb_value.SetSP (value_sp);
break;
}
}
}
}
break;
case eValueTypeConstResult: // constant result variables
{
ConstString const_name(name);
ClangExpressionVariableSP expr_var_sp (target->GetPersistentVariables().GetVariable (const_name));
if (expr_var_sp)
{
value_sp = expr_var_sp->GetValueObject();
sb_value.SetSP (value_sp);
}
}
break;
default:
break;
}
}
else
{
if (log)
log->Printf ("SBFrame(%p)::FindValue () => error: process is running", frame);
}
}
2010-10-30 12:51:46 +08:00
if (log)
log->Printf ("SBFrame(%p)::FindVariableInScope (name=\"%s\", value_type=%i) => SBValue(%p)",
frame, name, value_type, value_sp.get());
2010-10-30 12:51:46 +08:00
return sb_value;
}
bool
SBFrame::IsEqual (const SBFrame &that) const
{
lldb::StackFrameSP this_sp = GetFrameSP();
lldb::StackFrameSP that_sp = that.GetFrameSP();
return (this_sp && that_sp && this_sp->GetStackID() == that_sp->GetStackID());
}
bool
SBFrame::operator == (const SBFrame &rhs) const
{
return IsEqual(rhs);
}
bool
SBFrame::operator != (const SBFrame &rhs) const
{
return !IsEqual(rhs);
}
SBThread
SBFrame::GetThread () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
ExecutionContext exe_ctx(m_opaque_sp.get());
ThreadSP thread_sp (exe_ctx.GetThreadSP());
SBThread sb_thread (thread_sp);
if (log)
{
SBStream sstr;
sb_thread.GetDescription (sstr);
log->Printf ("SBFrame(%p)::GetThread () => SBThread(%p): %s",
exe_ctx.GetFramePtr(),
thread_sp.get(),
sstr.GetData());
}
return sb_thread;
}
const char *
SBFrame::Disassemble () const
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
2010-10-30 12:51:46 +08:00
const char *disassembly = NULL;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
disassembly = frame->Disassemble();
}
else
{
if (log)
log->Printf ("SBFrame(%p)::Disassemble () => error: process is running", frame);
}
}
2010-10-30 12:51:46 +08:00
if (log)
log->Printf ("SBFrame(%p)::Disassemble () => %s", frame, disassembly);
2010-10-30 12:51:46 +08:00
return disassembly;
}
SBValueList
SBFrame::GetVariables (bool arguments,
bool locals,
bool statics,
bool in_scope_only)
{
SBValueList value_list;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
lldb::DynamicValueType use_dynamic = frame->CalculateTarget()->GetPreferDynamicValue();
value_list = GetVariables (arguments, locals, statics, in_scope_only, use_dynamic);
}
return value_list;
}
SBValueList
SBFrame::GetVariables (bool arguments,
bool locals,
bool statics,
bool in_scope_only,
lldb::DynamicValueType use_dynamic)
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
SBValueList value_list;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
if (log)
2010-10-30 12:51:46 +08:00
log->Printf ("SBFrame(%p)::GetVariables (arguments=%i, locals=%i, statics=%i, in_scope_only=%i)",
frame,
2010-10-30 12:51:46 +08:00
arguments,
locals,
statics,
in_scope_only);
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
size_t i;
VariableList *variable_list = NULL;
Mutex::Locker api_locker (target->GetAPIMutex());
variable_list = frame->GetVariableList(true);
if (variable_list)
{
const size_t num_variables = variable_list->GetSize();
if (num_variables)
{
for (i = 0; i < num_variables; ++i)
{
VariableSP variable_sp (variable_list->GetVariableAtIndex(i));
if (variable_sp)
{
bool add_variable = false;
switch (variable_sp->GetScope())
{
case eValueTypeVariableGlobal:
case eValueTypeVariableStatic:
add_variable = statics;
break;
case eValueTypeVariableArgument:
add_variable = arguments;
break;
case eValueTypeVariableLocal:
add_variable = locals;
break;
default:
break;
}
if (add_variable)
{
if (in_scope_only && !variable_sp->IsInScope(frame))
continue;
value_list.Append(frame->GetValueObjectForFrameVariable (variable_sp, use_dynamic));
}
}
}
}
}
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetVariables () => error: process is running", frame);
}
}
if (log)
{
log->Printf ("SBFrame(%p)::GetVariables (...) => SBValueList(%p)", frame,
value_list.get());
}
return value_list;
}
SBValueList
SBFrame::GetRegisters ()
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
SBValueList value_list;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
RegisterContextSP reg_ctx (frame->GetRegisterContext());
if (reg_ctx)
{
const uint32_t num_sets = reg_ctx->GetRegisterSetCount();
for (uint32_t set_idx = 0; set_idx < num_sets; ++set_idx)
{
value_list.Append(ValueObjectRegisterSet::Create (frame, reg_ctx, set_idx));
}
}
}
else
{
if (log)
log->Printf ("SBFrame(%p)::GetRegisters () => error: process is running", frame);
}
}
if (log)
log->Printf ("SBFrame(%p)::GetRegisters () => SBValueList(%p)", frame, value_list.get());
return value_list;
}
bool
SBFrame::GetDescription (SBStream &description)
{
Stream &strm = description.ref();
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Mutex::Locker api_locker (target->GetAPIMutex());
frame->DumpUsingSettingsFormat (&strm);
}
else
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
if (log)
log->Printf ("SBFrame(%p)::GetDescription () => error: process is running", frame);
}
}
else
strm.PutCString ("No value");
return true;
}
SBValue
SBFrame::EvaluateExpression (const char *expr)
{
SBValue result;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
lldb::DynamicValueType use_dynamic = frame->CalculateTarget()->GetPreferDynamicValue();
result = EvaluateExpression (expr, use_dynamic);
}
return result;
}
SBValue
SBFrame::EvaluateExpression (const char *expr, lldb::DynamicValueType fetch_dynamic_value)
{
return EvaluateExpression (expr, fetch_dynamic_value, true);
}
SBValue
SBFrame::EvaluateExpression (const char *expr, lldb::DynamicValueType fetch_dynamic_value, bool unwind_on_error)
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
LogSP expr_log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS));
2010-10-30 12:51:46 +08:00
ExecutionResults exe_results;
SBValue expr_result;
ValueObjectSP expr_value_sp;
SBFrame is now threadsafe using some extra tricks. One issue is that stack frames might go away (the object itself, not the actual logical frame) when we are single stepping due to the way we currently sometimes end up flushing frames when stepping in/out/over. They later will come back to life represented by another object yet they have the same StackID. Now when you get a lldb::SBFrame object, it will track the frame it is initialized with until the thread goes away or the StackID no longer exists in the stack for the thread it was created on. It uses a weak_ptr to both the frame and thread and also stores the StackID. These three items allow us to determine when the stack frame object has gone away (the weak_ptr will be NULL) and allows us to find the correct frame again. In our test suite we had such cases where we were just getting lucky when something like this happened: 1 - stop at breakpoint 2 - get first frame in thread where we stopped 3 - run an expression that causes the program to JIT and run code 4 - run more expressions on the frame from step 2 which was very very luckily still around inside a shared pointer, yet, not part of the current thread (a new stack frame object had appeared with the same stack ID and depth). We now avoid all such issues and properly keep up to date, or we start returning errors when the frame doesn't exist and always responds with invalid answers. Also fixed the UserSettingsController (not going to rewrite this just yet) so that it doesn't crash on shutdown. Using weak_ptr's came in real handy to track when the master controller has already gone away and this allowed me to pull out the previous NotifyOwnerIsShuttingDown() patch as it is no longer needed. llvm-svn: 149231
2012-01-30 15:41:31 +08:00
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
2010-10-30 12:51:46 +08:00
if (log)
log->Printf ("SBFrame(%p)::EvaluateExpression (expr=\"%s\")...", frame, expr);
2010-10-30 12:51:46 +08:00
if (frame && target)
{
Mutex::Locker api_locker (target->GetAPIMutex());
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
#ifdef LLDB_CONFIGURATION_DEBUG
StreamString frame_description;
frame->DumpUsingSettingsFormat (&frame_description);
Host::SetCrashDescriptionWithFormat ("SBFrame::EvaluateExpression (expr = \"%s\", fetch_dynamic_value = %u) %s",
expr, fetch_dynamic_value, frame_description.GetString().c_str());
#endif
const bool coerce_to_id = false;
const bool keep_in_memory = false;
exe_results = target->EvaluateExpression (expr,
frame,
eExecutionPolicyOnlyWhenNeeded,
coerce_to_id,
unwind_on_error,
keep_in_memory,
fetch_dynamic_value,
expr_value_sp);
expr_result.SetSP(expr_value_sp);
#ifdef LLDB_CONFIGURATION_DEBUG
Host::SetCrashDescription (NULL);
#endif
}
else
{
if (log)
log->Printf ("SBFrame(%p)::EvaluateExpression () => error: process is running", frame);
}
}
#ifndef LLDB_DISABLE_PYTHON
if (expr_log)
expr_log->Printf("** [SBFrame::EvaluateExpression] Expression result is %s, summary %s **",
expr_result.GetValue(),
expr_result.GetSummary());
2010-10-30 12:51:46 +08:00
if (log)
log->Printf ("SBFrame(%p)::EvaluateExpression (expr=\"%s\") => SBValue(%p) (execution result=%d)",
frame,
expr,
expr_value_sp.get(),
exe_results);
#endif
2010-10-30 12:51:46 +08:00
return expr_result;
}
bool
SBFrame::IsInlined()
{
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
Block *block = frame->GetSymbolContext(eSymbolContextBlock).block;
if (block)
return block->GetContainingInlinedBlock () != NULL;
}
else
{
LogSP log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
if (log)
log->Printf ("SBFrame(%p)::IsInlined () => error: process is running", frame);
}
}
return false;
}
const char *
SBFrame::GetFunctionName()
{
const char *name = NULL;
ExecutionContext exe_ctx(m_opaque_sp.get());
StackFrame *frame = exe_ctx.GetFramePtr();
Target *target = exe_ctx.GetTargetPtr();
if (frame && target)
{
Process::StopLocker stop_locker;
if (stop_locker.TryLock(&exe_ctx.GetProcessPtr()->GetRunLock()))
{
SymbolContext sc (frame->GetSymbolContext(eSymbolContextFunction | eSymbolContextBlock | eSymbolContextSymbol));
if (sc.block)
{
Block *inlined_block = sc.block->GetContainingInlinedBlock ();
if (inlined_block)
{
const InlineFunctionInfo* inlined_info = inlined_block->GetInlinedFunctionInfo();
name = inlined_info->GetName().AsCString();
}
}
if (name == NULL)
{
if (sc.function)
name = sc.function->GetName().GetCString();
}
if (name == NULL)
{
if (sc.symbol)
name = sc.symbol->GetName().GetCString();
}
}
else
{
LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_API));
if (log)
log->Printf ("SBFrame(%p)::GetFunctionName() => error: process is running", frame);
}
}
return name;
}