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llvm / llvm-project / eb1c2bdc1f55fbc5d1e7bb86e9f0e038b0f5adb7 / . / lldb / include / lldb / Target / Target.h
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//===-- Target.h ------------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef liblldb_Target_h_
#define liblldb_Target_h_
// C Includes
// C++ Includes
// Other libraries and framework includes
// Project includes
#include "lldb/lldb-public.h"
#include "lldb/Breakpoint/BreakpointList.h"
#include "lldb/Breakpoint/BreakpointLocationCollection.h"
#include "lldb/Breakpoint/WatchpointList.h"
#include "lldb/Core/Broadcaster.h"
#include "lldb/Core/Event.h"
#include "lldb/Core/ModuleList.h"
#include "lldb/Core/UserSettingsController.h"
#include "lldb/Core/SourceManager.h"
#include "lldb/Expression/ClangPersistentVariables.h"
#include "lldb/Interpreter/Args.h"
#include "lldb/Interpreter/NamedOptionValue.h"
#include "lldb/Symbol/SymbolContext.h"
#include "lldb/Target/ABI.h"
#include "lldb/Target/ExecutionContextScope.h"
#include "lldb/Target/PathMappingList.h"
#include "lldb/Target/SectionLoadList.h"
namespace lldb_private {
//----------------------------------------------------------------------
// TargetInstanceSettings
//----------------------------------------------------------------------
class TargetInstanceSettings : public InstanceSettings
{
public:
static OptionEnumValueElement g_dynamic_value_types[];
TargetInstanceSettings (const lldb::UserSettingsControllerSP &owner_sp, bool live_instance = true, const char *name = NULL);
TargetInstanceSettings (const TargetInstanceSettings &rhs);
virtual
~TargetInstanceSettings ();
TargetInstanceSettings&
operator= (const TargetInstanceSettings &rhs);
void
UpdateInstanceSettingsVariable (const ConstString &var_name,
const char *index_value,
const char *value,
const ConstString &instance_name,
const SettingEntry &entry,
VarSetOperationType op,
Error &err,
bool pending);
bool
GetInstanceSettingsValue (const SettingEntry &entry,
const ConstString &var_name,
StringList &value,
Error *err);
lldb::DynamicValueType
GetPreferDynamicValue()
{
return (lldb::DynamicValueType) g_dynamic_value_types[m_prefer_dynamic_value].value;
}
bool
GetEnableSyntheticValue ()
{
return m_enable_synthetic_value;
}
void
SetEnableSyntheticValue (bool b)
{
m_enable_synthetic_value = b;
}
bool
GetSkipPrologue()
{
return m_skip_prologue;
}
PathMappingList &
GetSourcePathMap ()
{
return m_source_map;
}
FileSpecList &
GetExecutableSearchPaths ()
{
return m_exe_search_paths;
}
const FileSpecList &
GetExecutableSearchPaths () const
{
return m_exe_search_paths;
}
uint32_t
GetMaximumNumberOfChildrenToDisplay()
{
return m_max_children_display;
}
uint32_t
GetMaximumSizeOfStringSummary()
{
return m_max_strlen_length;
}
bool
GetBreakpointsConsultPlatformAvoidList ()
{
return m_breakpoints_use_platform_avoid;
}
const Args &
GetRunArguments () const
{
return m_run_args;
}
void
SetRunArguments (const Args &args)
{
m_run_args = args;
}
void
GetHostEnvironmentIfNeeded ();
size_t
GetEnvironmentAsArgs (Args &env);
const char *
GetStandardInputPath () const
{
if (m_input_path.empty())
return NULL;
return m_input_path.c_str();
}
void
SetStandardInputPath (const char *path)
{
if (path && path[0])
m_input_path.assign (path);
else
{
// Make sure we deallocate memory in string...
std::string tmp;
tmp.swap (m_input_path);
}
}
const char *
GetStandardOutputPath () const
{
if (m_output_path.empty())
return NULL;
return m_output_path.c_str();
}
void
SetStandardOutputPath (const char *path)
{
if (path && path[0])
m_output_path.assign (path);
else
{
// Make sure we deallocate memory in string...
std::string tmp;
tmp.swap (m_output_path);
}
}
const char *
GetStandardErrorPath () const
{
if (m_error_path.empty())
return NULL;
return m_error_path.c_str();
}
void
SetStandardErrorPath (const char *path)
{
if (path && path[0])
m_error_path.assign (path);
else
{
// Make sure we deallocate memory in string...
std::string tmp;
tmp.swap (m_error_path);
}
}
bool
GetDisableASLR () const
{
return m_disable_aslr;
}
void
SetDisableASLR (bool b)
{
m_disable_aslr = b;
}
bool
GetDisableSTDIO () const
{
return m_disable_stdio;
}
void
SetDisableSTDIO (bool b)
{
m_disable_stdio = b;
}
protected:
void
CopyInstanceSettings (const lldb::InstanceSettingsSP &new_settings,
bool pending);
const ConstString
CreateInstanceName ();
OptionValueFileSpec m_expr_prefix_file;
std::string m_expr_prefix_contents;
int m_prefer_dynamic_value;
OptionValueBoolean m_enable_synthetic_value;
OptionValueBoolean m_skip_prologue;
PathMappingList m_source_map;
FileSpecList m_exe_search_paths;
uint32_t m_max_children_display;
uint32_t m_max_strlen_length;
OptionValueBoolean m_breakpoints_use_platform_avoid;
typedef std::map<std::string, std::string> dictionary;
Args m_run_args;
dictionary m_env_vars;
std::string m_input_path;
std::string m_output_path;
std::string m_error_path;
bool m_disable_aslr;
bool m_disable_stdio;
bool m_inherit_host_env;
bool m_got_host_env;
};
//----------------------------------------------------------------------
// Target
//----------------------------------------------------------------------
class Target :
public STD_ENABLE_SHARED_FROM_THIS(Target),
public Broadcaster,
public ExecutionContextScope,
public TargetInstanceSettings
{
public:
friend class TargetList;
//------------------------------------------------------------------
/// Broadcaster event bits definitions.
//------------------------------------------------------------------
enum
{
eBroadcastBitBreakpointChanged = (1 << 0),
eBroadcastBitModulesLoaded = (1 << 1),
eBroadcastBitModulesUnloaded = (1 << 2)
};
// These two functions fill out the Broadcaster interface:
static ConstString &GetStaticBroadcasterClass ();
virtual ConstString &GetBroadcasterClass() const
{
return GetStaticBroadcasterClass();
}
// This event data class is for use by the TargetList to broadcast new target notifications.
class TargetEventData : public EventData
{
public:
static const ConstString &
GetFlavorString ();
virtual const ConstString &
GetFlavor () const;
TargetEventData (const lldb::TargetSP &new_target_sp);
lldb::TargetSP &
GetTarget()
{
return m_target_sp;
}
virtual
~TargetEventData();
virtual void
Dump (Stream *s) const;
static const lldb::TargetSP
GetTargetFromEvent (const lldb::EventSP &event_sp);
static const TargetEventData *
GetEventDataFromEvent (const Event *event_sp);
private:
lldb::TargetSP m_target_sp;
DISALLOW_COPY_AND_ASSIGN (TargetEventData);
};
static void
SettingsInitialize ();
static void
SettingsTerminate ();
static lldb::UserSettingsControllerSP &
GetSettingsController ();
static FileSpecList
GetDefaultExecutableSearchPaths ();
static ArchSpec
GetDefaultArchitecture ();
static void
SetDefaultArchitecture (const ArchSpec &arch);
void
UpdateInstanceName ();
lldb::ModuleSP
GetSharedModule (const ModuleSpec &module_spec,
Error *error_ptr = NULL);
private:
//------------------------------------------------------------------
/// Construct with optional file and arch.
///
/// This member is private. Clients must use
/// TargetList::CreateTarget(const FileSpec*, const ArchSpec*)
/// so all targets can be tracked from the central target list.
///
/// @see TargetList::CreateTarget(const FileSpec*, const ArchSpec*)
//------------------------------------------------------------------
Target (Debugger &debugger,
const ArchSpec &target_arch,
const lldb::PlatformSP &platform_sp);
// Helper function.
bool
ProcessIsValid ();
public:
~Target();
Mutex &
GetAPIMutex ()
{
return m_mutex;
}
void
DeleteCurrentProcess ();
//------------------------------------------------------------------
/// Dump a description of this object to a Stream.
///
/// Dump a description of the contents of this object to the
/// supplied stream \a s. The dumped content will be only what has
/// been loaded or parsed up to this point at which this function
/// is called, so this is a good way to see what has been parsed
/// in a target.
///
/// @param[in] s
/// The stream to which to dump the object descripton.
//------------------------------------------------------------------
void
Dump (Stream *s, lldb::DescriptionLevel description_level);
const lldb::ProcessSP &
CreateProcess (Listener &listener,
const char *plugin_name,
const FileSpec *crash_file);
const lldb::ProcessSP &
GetProcessSP () const;
void
Destroy();
//------------------------------------------------------------------
// This part handles the breakpoints.
//------------------------------------------------------------------
BreakpointList &
GetBreakpointList(bool internal = false);
const BreakpointList &
GetBreakpointList(bool internal = false) const;
lldb::BreakpointSP
GetLastCreatedBreakpoint ()
{
return m_last_created_breakpoint;
}
lldb::BreakpointSP
GetBreakpointByID (lldb::break_id_t break_id);
// Use this to create a file and line breakpoint to a given module or all module it is NULL
lldb::BreakpointSP
CreateBreakpoint (const FileSpecList *containingModules,
const FileSpec &file,
uint32_t line_no,
bool check_inlines,
bool internal = false);
// Use this to create breakpoint that matches regex against the source lines in files given in source_file_list:
lldb::BreakpointSP
CreateSourceRegexBreakpoint (const FileSpecList *containingModules,
const FileSpecList *source_file_list,
RegularExpression &source_regex,
bool internal = false);
// Use this to create a breakpoint from a load address
lldb::BreakpointSP
CreateBreakpoint (lldb::addr_t load_addr,
bool internal = false);
// Use this to create Address breakpoints:
lldb::BreakpointSP
CreateBreakpoint (Address &addr,
bool internal = false);
// Use this to create a function breakpoint by regexp in containingModule/containingSourceFiles, or all modules if it is NULL
// When "skip_prologue is set to eLazyBoolCalculate, we use the current target
// setting, else we use the values passed in
lldb::BreakpointSP
CreateFuncRegexBreakpoint (const FileSpecList *containingModules,
const FileSpecList *containingSourceFiles,
RegularExpression &func_regexp,
bool internal = false,
LazyBool skip_prologue = eLazyBoolCalculate);
// Use this to create a function breakpoint by name in containingModule, or all modules if it is NULL
// When "skip_prologue is set to eLazyBoolCalculate, we use the current target
// setting, else we use the values passed in
lldb::BreakpointSP
CreateBreakpoint (const FileSpecList *containingModules,
const FileSpecList *containingSourceFiles,
const char *func_name,
uint32_t func_name_type_mask,
bool internal = false,
LazyBool skip_prologue = eLazyBoolCalculate);
lldb::BreakpointSP
CreateExceptionBreakpoint (enum lldb::LanguageType language, bool catch_bp, bool throw_bp, bool internal = false);
// This is the same as the func_name breakpoint except that you can specify a vector of names. This is cheaper
// than a regular expression breakpoint in the case where you just want to set a breakpoint on a set of names
// you already know.
lldb::BreakpointSP
CreateBreakpoint (const FileSpecList *containingModules,
const FileSpecList *containingSourceFiles,
const char *func_names[],
size_t num_names,
uint32_t func_name_type_mask,
bool internal = false,
LazyBool skip_prologue = eLazyBoolCalculate);
lldb::BreakpointSP
CreateBreakpoint (const FileSpecList *containingModules,
const FileSpecList *containingSourceFiles,
std::vector<std::string> func_names,
uint32_t func_name_type_mask,
bool internal = false,
LazyBool skip_prologue = eLazyBoolCalculate);
// Use this to create a general breakpoint:
lldb::BreakpointSP
CreateBreakpoint (lldb::SearchFilterSP &filter_sp,
lldb::BreakpointResolverSP &resolver_sp,
bool internal = false);
// Use this to create a watchpoint:
lldb::WatchpointSP
CreateWatchpoint (lldb::addr_t addr,
size_t size,
uint32_t type);
lldb::WatchpointSP
GetLastCreatedWatchpoint ()
{
return m_last_created_watchpoint;
}
WatchpointList &
GetWatchpointList()
{
return m_watchpoint_list;
}
void
RemoveAllBreakpoints (bool internal_also = false);
void
DisableAllBreakpoints (bool internal_also = false);
void
EnableAllBreakpoints (bool internal_also = false);
bool
DisableBreakpointByID (lldb::break_id_t break_id);
bool
EnableBreakpointByID (lldb::break_id_t break_id);
bool
RemoveBreakpointByID (lldb::break_id_t break_id);
// The flag 'end_to_end', default to true, signifies that the operation is
// performed end to end, for both the debugger and the debuggee.
bool
RemoveAllWatchpoints (bool end_to_end = true);
bool
DisableAllWatchpoints (bool end_to_end = true);
bool
EnableAllWatchpoints (bool end_to_end = true);
bool
ClearAllWatchpointHitCounts ();
bool
IgnoreAllWatchpoints (uint32_t ignore_count);
bool
DisableWatchpointByID (lldb::watch_id_t watch_id);
bool
EnableWatchpointByID (lldb::watch_id_t watch_id);
bool
RemoveWatchpointByID (lldb::watch_id_t watch_id);
bool
IgnoreWatchpointByID (lldb::watch_id_t watch_id, uint32_t ignore_count);
void
ModulesDidLoad (ModuleList &module_list);
void
ModulesDidUnload (ModuleList &module_list);
//------------------------------------------------------------------
/// Get \a load_addr as a callable code load address for this target
///
/// Take \a load_addr and potentially add any address bits that are
/// needed to make the address callable. For ARM this can set bit
/// zero (if it already isn't) if \a load_addr is a thumb function.
/// If \a addr_class is set to eAddressClassInvalid, then the address
/// adjustment will always happen. If it is set to an address class
/// that doesn't have code in it, LLDB_INVALID_ADDRESS will be
/// returned.
//------------------------------------------------------------------
lldb::addr_t
GetCallableLoadAddress (lldb::addr_t load_addr, lldb::AddressClass addr_class = lldb::eAddressClassInvalid) const;
//------------------------------------------------------------------
/// Get \a load_addr as an opcode for this target.
///
/// Take \a load_addr and potentially strip any address bits that are
/// needed to make the address point to an opcode. For ARM this can
/// clear bit zero (if it already isn't) if \a load_addr is a
/// thumb function and load_addr is in code.
/// If \a addr_class is set to eAddressClassInvalid, then the address
/// adjustment will always happen. If it is set to an address class
/// that doesn't have code in it, LLDB_INVALID_ADDRESS will be
/// returned.
//------------------------------------------------------------------
lldb::addr_t
GetOpcodeLoadAddress (lldb::addr_t load_addr, lldb::AddressClass addr_class = lldb::eAddressClassInvalid) const;
protected:
void
ModuleAdded (lldb::ModuleSP &module_sp);
void
ModuleUpdated (lldb::ModuleSP &old_module_sp, lldb::ModuleSP &new_module_sp);
public:
//------------------------------------------------------------------
/// Gets the module for the main executable.
///
/// Each process has a notion of a main executable that is the file
/// that will be executed or attached to. Executable files can have
/// dependent modules that are discovered from the object files, or
/// discovered at runtime as things are dynamically loaded.
///
/// @return
/// The shared pointer to the executable module which can
/// contains a NULL Module object if no executable has been
/// set.
///
/// @see DynamicLoader
/// @see ObjectFile::GetDependentModules (FileSpecList&)
/// @see Process::SetExecutableModule(lldb::ModuleSP&)
//------------------------------------------------------------------
lldb::ModuleSP
GetExecutableModule ();
Module*
GetExecutableModulePointer ();
//------------------------------------------------------------------
/// Set the main executable module.
///
/// Each process has a notion of a main executable that is the file
/// that will be executed or attached to. Executable files can have
/// dependent modules that are discovered from the object files, or
/// discovered at runtime as things are dynamically loaded.
///
/// Setting the executable causes any of the current dependant
/// image information to be cleared and replaced with the static
/// dependent image information found by calling
/// ObjectFile::GetDependentModules (FileSpecList&) on the main
/// executable and any modules on which it depends. Calling
/// Process::GetImages() will return the newly found images that
/// were obtained from all of the object files.
///
/// @param[in] module_sp
/// A shared pointer reference to the module that will become
/// the main executable for this process.
///
/// @param[in] get_dependent_files
/// If \b true then ask the object files to track down any
/// known dependent files.
///
/// @see ObjectFile::GetDependentModules (FileSpecList&)
/// @see Process::GetImages()
//------------------------------------------------------------------
void
SetExecutableModule (lldb::ModuleSP& module_sp, bool get_dependent_files);
//------------------------------------------------------------------
/// Get accessor for the images for this process.
///
/// Each process has a notion of a main executable that is the file
/// that will be executed or attached to. Executable files can have
/// dependent modules that are discovered from the object files, or
/// discovered at runtime as things are dynamically loaded. After
/// a main executable has been set, the images will contain a list
/// of all the files that the executable depends upon as far as the
/// object files know. These images will usually contain valid file
/// virtual addresses only. When the process is launched or attached
/// to, the DynamicLoader plug-in will discover where these images
/// were loaded in memory and will resolve the load virtual
/// addresses is each image, and also in images that are loaded by
/// code.
///
/// @return
/// A list of Module objects in a module list.
//------------------------------------------------------------------
ModuleList&
GetImages ()
{
return m_images;
}
const ModuleList&
GetImages () const
{
return m_images;
}
//------------------------------------------------------------------
/// Return whether this FileSpec corresponds to a module that should be considered for general searches.
///
/// This API will be consulted by the SearchFilterForNonModuleSpecificSearches
/// and any module that returns \b true will not be searched. Note the
/// SearchFilterForNonModuleSpecificSearches is the search filter that
/// gets used in the CreateBreakpoint calls when no modules is provided.
///
/// The target call at present just consults the Platform's call of the
/// same name.
///
/// @param[in] module_sp
/// A shared pointer reference to the module that checked.
///
/// @return \b true if the module should be excluded, \b false otherwise.
//------------------------------------------------------------------
bool
ModuleIsExcludedForNonModuleSpecificSearches (const FileSpec &module_spec);
//------------------------------------------------------------------
/// Return whether this module should be considered for general searches.
///
/// This API will be consulted by the SearchFilterForNonModuleSpecificSearches
/// and any module that returns \b true will not be searched. Note the
/// SearchFilterForNonModuleSpecificSearches is the search filter that
/// gets used in the CreateBreakpoint calls when no modules is provided.
///
/// The target call at present just consults the Platform's call of the
/// same name.
///
/// FIXME: When we get time we should add a way for the user to set modules that they
/// don't want searched, in addition to or instead of the platform ones.
///
/// @param[in] module_sp
/// A shared pointer reference to the module that checked.
///
/// @return \b true if the module should be excluded, \b false otherwise.
//------------------------------------------------------------------
bool
ModuleIsExcludedForNonModuleSpecificSearches (const lldb::ModuleSP &module_sp);
ArchSpec &
GetArchitecture ()
{
return m_arch;
}
const ArchSpec &
GetArchitecture () const
{
return m_arch;
}
//------------------------------------------------------------------
/// Set the architecture for this target.
///
/// If the current target has no Images read in, then this just sets the architecture, which will
/// be used to select the architecture of the ExecutableModule when that is set.
/// If the current target has an ExecutableModule, then calling SetArchitecture with a different
/// architecture from the currently selected one will reset the ExecutableModule to that slice
/// of the file backing the ExecutableModule. If the file backing the ExecutableModule does not
/// contain a fork of this architecture, then this code will return false, and the architecture
/// won't be changed.
/// If the input arch_spec is the same as the already set architecture, this is a no-op.
///
/// @param[in] arch_spec
/// The new architecture.
///
/// @return
/// \b true if the architecture was successfully set, \bfalse otherwise.
//------------------------------------------------------------------
bool
SetArchitecture (const ArchSpec &arch_spec);
Debugger &
GetDebugger ()
{
return m_debugger;
}
size_t
ReadMemoryFromFileCache (const Address& addr,
void *dst,
size_t dst_len,
Error &error);
// Reading memory through the target allows us to skip going to the process
// for reading memory if possible and it allows us to try and read from
// any constant sections in our object files on disk. If you always want
// live program memory, read straight from the process. If you possibly
// want to read from const sections in object files, read from the target.
// This version of ReadMemory will try and read memory from the process
// if the process is alive. The order is:
// 1 - if (prefer_file_cache == true) then read from object file cache
// 2 - if there is a valid process, try and read from its memory
// 3 - if (prefer_file_cache == false) then read from object file cache
size_t
ReadMemory (const Address& addr,
bool prefer_file_cache,
void *dst,
size_t dst_len,
Error &error,
lldb::addr_t *load_addr_ptr = NULL);
size_t
ReadScalarIntegerFromMemory (const Address& addr,
bool prefer_file_cache,
uint32_t byte_size,
bool is_signed,
Scalar &scalar,
Error &error);
uint64_t
ReadUnsignedIntegerFromMemory (const Address& addr,
bool prefer_file_cache,
size_t integer_byte_size,
uint64_t fail_value,
Error &error);
bool
ReadPointerFromMemory (const Address& addr,
bool prefer_file_cache,
Error &error,
Address &pointer_addr);
SectionLoadList&
GetSectionLoadList()
{
return m_section_load_list;
}
const SectionLoadList&
GetSectionLoadList() const
{
return m_section_load_list;
}
static Target *
GetTargetFromContexts (const ExecutionContext *exe_ctx_ptr,
const SymbolContext *sc_ptr);
//------------------------------------------------------------------
// lldb::ExecutionContextScope pure virtual functions
//------------------------------------------------------------------
virtual lldb::TargetSP
CalculateTarget ();
virtual lldb::ProcessSP
CalculateProcess ();
virtual lldb::ThreadSP
CalculateThread ();
virtual lldb::StackFrameSP
CalculateStackFrame ();
virtual void
CalculateExecutionContext (ExecutionContext &exe_ctx);
PathMappingList &
GetImageSearchPathList ();
ClangASTContext *
GetScratchClangASTContext(bool create_on_demand=true);
ClangASTImporter *
GetClangASTImporter();
const char *
GetExpressionPrefixContentsAsCString ();
// Since expressions results can persist beyond the lifetime of a process,
// and the const expression results are available after a process is gone,
// we provide a way for expressions to be evaluated from the Target itself.
// If an expression is going to be run, then it should have a frame filled
// in in th execution context.
ExecutionResults
EvaluateExpression (const char *expression,
StackFrame *frame,
lldb_private::ExecutionPolicy execution_policy,
bool coerce_to_id,
bool unwind_on_error,
bool keep_in_memory,
lldb::DynamicValueType use_dynamic,
lldb::ValueObjectSP &result_valobj_sp);
ClangPersistentVariables &
GetPersistentVariables()
{
return m_persistent_variables;
}
//------------------------------------------------------------------
// Target Stop Hooks
//------------------------------------------------------------------
class StopHook : public UserID
{
public:
~StopHook ();
StopHook (const StopHook &rhs);
StringList *
GetCommandPointer ()
{
return &m_commands;
}
const StringList &
GetCommands()
{
return m_commands;
}
lldb::TargetSP &
GetTarget()
{
return m_target_sp;
}
void
SetCommands (StringList &in_commands)
{
m_commands = in_commands;
}
// Set the specifier. The stop hook will own the specifier, and is responsible for deleting it when we're done.
void
SetSpecifier (SymbolContextSpecifier *specifier)
{
m_specifier_sp.reset (specifier);
}
SymbolContextSpecifier *
GetSpecifier ()
{
return m_specifier_sp.get();
}
// Set the Thread Specifier. The stop hook will own the thread specifier, and is responsible for deleting it when we're done.
void
SetThreadSpecifier (ThreadSpec *specifier);
ThreadSpec *
GetThreadSpecifier()
{
return m_thread_spec_ap.get();
}
bool
IsActive()
{
return m_active;
}
void
SetIsActive (bool is_active)
{
m_active = is_active;
}
void
GetDescription (Stream *s, lldb::DescriptionLevel level) const;
private:
lldb::TargetSP m_target_sp;
StringList m_commands;
lldb::SymbolContextSpecifierSP m_specifier_sp;
std::auto_ptr<ThreadSpec> m_thread_spec_ap;
bool m_active;
// Use AddStopHook to make a new empty stop hook. The GetCommandPointer and fill it with commands,
// and SetSpecifier to set the specifier shared pointer (can be null, that will match anything.)
StopHook (lldb::TargetSP target_sp, lldb::user_id_t uid);
friend class Target;
};
typedef STD_SHARED_PTR(StopHook) StopHookSP;
// Add an empty stop hook to the Target's stop hook list, and returns a shared pointer to it in new_hook.
// Returns the id of the new hook.
lldb::user_id_t
AddStopHook (StopHookSP &new_hook);
void
RunStopHooks ();
size_t
GetStopHookSize();
bool
SetSuppresStopHooks (bool suppress)
{
bool old_value = m_suppress_stop_hooks;
m_suppress_stop_hooks = suppress;
return old_value;
}
bool
GetSuppressStopHooks ()
{
return m_suppress_stop_hooks;
}
bool
SetSuppressSyntheticValue (bool suppress)
{
bool old_value = m_suppress_synthetic_value;
m_suppress_synthetic_value = suppress;
return old_value;
}
bool
GetSuppressSyntheticValue ()
{
return m_suppress_synthetic_value;
}
// StopHookSP &
// GetStopHookByIndex (size_t index);
//
bool
RemoveStopHookByID (lldb::user_id_t uid);
void
RemoveAllStopHooks ();
StopHookSP
GetStopHookByID (lldb::user_id_t uid);
bool
SetStopHookActiveStateByID (lldb::user_id_t uid, bool active_state);
void
SetAllStopHooksActiveState (bool active_state);
size_t GetNumStopHooks () const
{
return m_stop_hooks.size();
}
StopHookSP
GetStopHookAtIndex (size_t index)
{
if (index >= GetNumStopHooks())
return StopHookSP();
StopHookCollection::iterator pos = m_stop_hooks.begin();
while (index > 0)
{
pos++;
index--;
}
return (*pos).second;
}
lldb::PlatformSP
GetPlatform ()
{
return m_platform_sp;
}
void
SetPlatform (const lldb::PlatformSP &platform_sp)
{
m_platform_sp = platform_sp;
}
SourceManager &
GetSourceManager ()
{
return m_source_manager;
}
//------------------------------------------------------------------
// Target::SettingsController
//------------------------------------------------------------------
class SettingsController : public UserSettingsController
{
public:
SettingsController ();
virtual
~SettingsController ();
bool
SetGlobalVariable (const ConstString &var_name,
const char *index_value,
const char *value,
const SettingEntry &entry,
const VarSetOperationType op,
Error&err);
bool
GetGlobalVariable (const ConstString &var_name,
StringList &value,
Error &err);
static SettingEntry global_settings_table[];
static SettingEntry instance_settings_table[];
ArchSpec &
GetArchitecture ()
{
return m_default_architecture;
}
protected:
lldb::InstanceSettingsSP
CreateInstanceSettings (const char *instance_name);
private:
// Class-wide settings.
ArchSpec m_default_architecture;
DISALLOW_COPY_AND_ASSIGN (SettingsController);
};
//------------------------------------------------------------------
// Methods.
//------------------------------------------------------------------
lldb::SearchFilterSP
GetSearchFilterForModule (const FileSpec *containingModule);
lldb::SearchFilterSP
GetSearchFilterForModuleList (const FileSpecList *containingModuleList);
lldb::SearchFilterSP
GetSearchFilterForModuleAndCUList (const FileSpecList *containingModules, const FileSpecList *containingSourceFiles);
protected:
//------------------------------------------------------------------
// Member variables.
//------------------------------------------------------------------
Debugger & m_debugger;
lldb::PlatformSP m_platform_sp; ///< The platform for this target.
Mutex m_mutex; ///< An API mutex that is used by the lldb::SB* classes make the SB interface thread safe
ArchSpec m_arch;
ModuleList m_images; ///< The list of images for this process (shared libraries and anything dynamically loaded).
SectionLoadList m_section_load_list;
BreakpointList m_breakpoint_list;
BreakpointList m_internal_breakpoint_list;
lldb::BreakpointSP m_last_created_breakpoint;
WatchpointList m_watchpoint_list;
lldb::WatchpointSP m_last_created_watchpoint;
// We want to tightly control the process destruction process so
// we can correctly tear down everything that we need to, so the only
// class that knows about the process lifespan is this target class.
lldb::ProcessSP m_process_sp;
lldb::SearchFilterSP m_search_filter_sp;
PathMappingList m_image_search_paths;
std::auto_ptr<ClangASTContext> m_scratch_ast_context_ap;
std::auto_ptr<ClangASTSource> m_scratch_ast_source_ap;
std::auto_ptr<ClangASTImporter> m_ast_importer_ap;
ClangPersistentVariables m_persistent_variables; ///< These are the persistent variables associated with this process for the expression parser.
SourceManager m_source_manager;
typedef std::map<lldb::user_id_t, StopHookSP> StopHookCollection;
StopHookCollection m_stop_hooks;
lldb::user_id_t m_stop_hook_next_id;
bool m_suppress_stop_hooks;
bool m_suppress_synthetic_value;
static void
ImageSearchPathsChanged (const PathMappingList &path_list,
void *baton);
private:
DISALLOW_COPY_AND_ASSIGN (Target);
};
} // namespace lldb_private
#endif // liblldb_Target_h_