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llvm / llvm-project / 38cf112a6bc8502ff8cce6ef524cf04c07f90f96 / . / lldb / bindings / interface / SBTarget.i
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//===-- SWIG Interface for SBTarget -----------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
namespace lldb {
%feature("docstring",
"Represents the target program running under the debugger.
SBTarget supports module, breakpoint, and watchpoint iterations. For example, ::
for m in target.module_iter():
print m
produces: ::
(x86_64) /Volumes/data/lldb/svn/trunk/test/python_api/lldbutil/iter/a.out
(x86_64) /usr/lib/dyld
(x86_64) /usr/lib/libstdc++.6.dylib
(x86_64) /usr/lib/libSystem.B.dylib
(x86_64) /usr/lib/system/libmathCommon.A.dylib
(x86_64) /usr/lib/libSystem.B.dylib(__commpage)
and, ::
for b in target.breakpoint_iter():
print b
produces: ::
SBBreakpoint: id = 1, file ='main.cpp', line = 66, locations = 1
SBBreakpoint: id = 2, file ='main.cpp', line = 85, locations = 1
and, ::
for wp_loc in target.watchpoint_iter():
print wp_loc
produces: ::
Watchpoint 1: addr = 0x1034ca048 size = 4 state = enabled type = rw
declare @ '/Volumes/data/lldb/svn/trunk/test/python_api/watchpoint/main.c:12'
hw_index = 0 hit_count = 2 ignore_count = 0"
) SBTarget;
class SBTarget
{
public:
//------------------------------------------------------------------
// Broadcaster bits.
//------------------------------------------------------------------
enum
{
eBroadcastBitBreakpointChanged = (1 << 0),
eBroadcastBitModulesLoaded = (1 << 1),
eBroadcastBitModulesUnloaded = (1 << 2),
eBroadcastBitWatchpointChanged = (1 << 3),
eBroadcastBitSymbolsLoaded = (1 << 4)
};
//------------------------------------------------------------------
// Constructors
//------------------------------------------------------------------
SBTarget ();
SBTarget (const lldb::SBTarget& rhs);
//------------------------------------------------------------------
// Destructor
//------------------------------------------------------------------
~SBTarget();
static const char *
GetBroadcasterClassName ();
bool
IsValid() const;
explicit operator bool() const;
static bool
EventIsTargetEvent (const lldb::SBEvent &event);
static lldb::SBTarget
GetTargetFromEvent (const lldb::SBEvent &event);
static uint32_t
GetNumModulesFromEvent (const lldb::SBEvent &event);
static lldb::SBModule
GetModuleAtIndexFromEvent (const uint32_t idx, const lldb::SBEvent &event);
lldb::SBProcess
GetProcess ();
%feature("docstring", "
Return the platform object associated with the target.
After return, the platform object should be checked for
validity.
@return
A platform object.") GetPlatform;
lldb::SBPlatform
GetPlatform ();
%feature("docstring", "
Install any binaries that need to be installed.
This function does nothing when debugging on the host system.
When connected to remote platforms, the target's main executable
and any modules that have their install path set will be
installed on the remote platform. If the main executable doesn't
have an install location set, it will be installed in the remote
platform's working directory.
@return
An error describing anything that went wrong during
installation.") Install;
lldb::SBError
Install();
%feature("docstring", "
Launch a new process.
Launch a new process by spawning a new process using the
target object's executable module's file as the file to launch.
Arguments are given in argv, and the environment variables
are in envp. Standard input and output files can be
optionally re-directed to stdin_path, stdout_path, and
stderr_path.
@param[in] listener
An optional listener that will receive all process events.
If listener is valid then listener will listen to all
process events. If not valid, then this target's debugger
(SBTarget::GetDebugger()) will listen to all process events.
@param[in] argv
The argument array.
@param[in] envp
The environment array.
@param[in] launch_flags
Flags to modify the launch (@see lldb::LaunchFlags)
@param[in] stdin_path
The path to use when re-directing the STDIN of the new
process. If all stdXX_path arguments are NULL, a pseudo
terminal will be used.
@param[in] stdout_path
The path to use when re-directing the STDOUT of the new
process. If all stdXX_path arguments are NULL, a pseudo
terminal will be used.
@param[in] stderr_path
The path to use when re-directing the STDERR of the new
process. If all stdXX_path arguments are NULL, a pseudo
terminal will be used.
@param[in] working_directory
The working directory to have the child process run in
@param[in] launch_flags
Some launch options specified by logical OR'ing
lldb::LaunchFlags enumeration values together.
@param[in] stop_at_entry
If false do not stop the inferior at the entry point.
@param[out]
An error object. Contains the reason if there is some failure.
@return
A process object for the newly created process.
For example,
process = target.Launch(self.dbg.GetListener(), None, None,
None, '/tmp/stdout.txt', None,
None, 0, False, error)
launches a new process by passing nothing for both the args and the envs
and redirect the standard output of the inferior to the /tmp/stdout.txt
file. It does not specify a working directory so that the debug server
will use its idea of what the current working directory is for the
inferior. Also, we ask the debugger not to stop the inferior at the
entry point. If no breakpoint is specified for the inferior, it should
run to completion if no user interaction is required.") Launch;
lldb::SBProcess
Launch (SBListener &listener,
char const **argv,
char const **envp,
const char *stdin_path,
const char *stdout_path,
const char *stderr_path,
const char *working_directory,
uint32_t launch_flags, // See LaunchFlags
bool stop_at_entry,
lldb::SBError& error);
%feature("docstring", "
Launch a new process with sensible defaults.
:param argv: The argument array.
:param envp: The environment array.
:param working_directory: The working directory to have the child process run in
:return: The newly created process.
:rtype: SBProcess
A pseudo terminal will be used as stdin/stdout/stderr.
No launch flags are passed and the target's debuger is used as a listener.
For example, ::
process = target.LaunchSimple(['X', 'Y', 'Z'], None, os.getcwd())
launches a new process by passing 'X', 'Y', 'Z' as the args to the
executable.") LaunchSimple;
lldb::SBProcess
LaunchSimple (const char **argv,
const char **envp,
const char *working_directory);
lldb::SBProcess
Launch (lldb::SBLaunchInfo &launch_info, lldb::SBError& error);
%feature("docstring", "
Load a core file
@param[in] core_file
File path of the core dump.
@param[out] error
An error explaining what went wrong if the operation fails.
(Optional)
@return
A process object for the newly created core file.
For example,
process = target.LoadCore('./a.out.core')
loads a new core file and returns the process object.") LoadCore;
lldb::SBProcess
LoadCore(const char *core_file);
lldb::SBProcess
LoadCore(const char *core_file, lldb::SBError &error);
lldb::SBProcess
Attach(lldb::SBAttachInfo &attach_info, lldb::SBError& error);
%feature("docstring", "
Attach to process with pid.
@param[in] listener
An optional listener that will receive all process events.
If listener is valid then listener will listen to all
process events. If not valid, then this target's debugger
(SBTarget::GetDebugger()) will listen to all process events.
@param[in] pid
The process ID to attach to.
@param[out]
An error explaining what went wrong if attach fails.
@return
A process object for the attached process.") AttachToProcessWithID;
lldb::SBProcess
AttachToProcessWithID (SBListener &listener,
lldb::pid_t pid,
lldb::SBError& error);
%feature("docstring", "
Attach to process with name.
@param[in] listener
An optional listener that will receive all process events.
If listener is valid then listener will listen to all
process events. If not valid, then this target's debugger
(SBTarget::GetDebugger()) will listen to all process events.
@param[in] name
Basename of process to attach to.
@param[in] wait_for
If true wait for a new instance of 'name' to be launched.
@param[out]
An error explaining what went wrong if attach fails.
@return
A process object for the attached process.") AttachToProcessWithName;
lldb::SBProcess
AttachToProcessWithName (SBListener &listener,
const char *name,
bool wait_for,
lldb::SBError& error);
%feature("docstring", "
Connect to a remote debug server with url.
@param[in] listener
An optional listener that will receive all process events.
If listener is valid then listener will listen to all
process events. If not valid, then this target's debugger
(SBTarget::GetDebugger()) will listen to all process events.
@param[in] url
The url to connect to, e.g., 'connect://localhost:12345'.
@param[in] plugin_name
The plugin name to be used; can be NULL.
@param[out]
An error explaining what went wrong if the connect fails.
@return
A process object for the connected process.") ConnectRemote;
lldb::SBProcess
ConnectRemote (SBListener &listener,
const char *url,
const char *plugin_name,
SBError& error);
lldb::SBFileSpec
GetExecutable ();
%feature("docstring", "
Append the path mapping (from -> to) to the target's paths mapping list.") AppendImageSearchPath;
void
AppendImageSearchPath (const char *from,
const char *to,
SBError &error);
bool
AddModule (lldb::SBModule &module);
lldb::SBModule
AddModule (const char *path,
const char *triple,
const char *uuid);
lldb::SBModule
AddModule (const char *path,
const char *triple,
const char *uuid_cstr,
const char *symfile);
lldb::SBModule
AddModule (const SBModuleSpec &module_spec);
uint32_t
GetNumModules () const;
lldb::SBModule
GetModuleAtIndex (uint32_t idx);
bool
RemoveModule (lldb::SBModule module);
lldb::SBDebugger
GetDebugger() const;
lldb::SBModule
FindModule (const lldb::SBFileSpec &file_spec);
%feature("docstring", "
Find compile units related to this target and passed source
file.
:param sb_file_spec: A :py:class:`lldb::SBFileSpec` object that contains source file
specification.
:return: The symbol contexts for all the matches.
:rtype: SBSymbolContextList") FindCompileUnits;
lldb::SBSymbolContextList
FindCompileUnits (const lldb::SBFileSpec &sb_file_spec);
lldb::ByteOrder
GetByteOrder ();
uint32_t
GetAddressByteSize();
const char *
GetTriple ();
%feature("docstring", "
Architecture data byte width accessor
:return: The size in 8-bit (host) bytes of a minimum addressable unit from the Architecture's data bus.
") GetDataByteSize;
uint32_t
GetDataByteSize ();
%feature("docstring", "
Architecture code byte width accessor.
:return: The size in 8-bit (host) bytes of a minimum addressable unit from the Architecture's code bus.
") GetCodeByteSize;
uint32_t
GetCodeByteSize ();
lldb::SBError
SetSectionLoadAddress (lldb::SBSection section,
lldb::addr_t section_base_addr);
lldb::SBError
ClearSectionLoadAddress (lldb::SBSection section);
lldb::SBError
SetModuleLoadAddress (lldb::SBModule module,
int64_t sections_offset);
lldb::SBError
ClearModuleLoadAddress (lldb::SBModule module);
%feature("docstring", "
Find functions by name.
:param name: The name of the function we are looking for.
:param name_type_mask:
A logical OR of one or more FunctionNameType enum bits that
indicate what kind of names should be used when doing the
lookup. Bits include fully qualified names, base names,
C++ methods, or ObjC selectors.
See FunctionNameType for more details.
:return:
A lldb::SBSymbolContextList that gets filled in with all of
the symbol contexts for all the matches.") FindFunctions;
lldb::SBSymbolContextList
FindFunctions (const char *name,
uint32_t name_type_mask = lldb::eFunctionNameTypeAny);
lldb::SBType
FindFirstType (const char* type);
lldb::SBTypeList
FindTypes (const char* type);
lldb::SBType
GetBasicType(lldb::BasicType type);
lldb::SBSourceManager
GetSourceManager ();
%feature("docstring", "
Find global and static variables by name.
@param[in] name
The name of the global or static variable we are looking
for.
@param[in] max_matches
Allow the number of matches to be limited to max_matches.
@return
A list of matched variables in an SBValueList.") FindGlobalVariables;
lldb::SBValueList
FindGlobalVariables (const char *name,
uint32_t max_matches);
%feature("docstring", "
Find the first global (or static) variable by name.
@param[in] name
The name of the global or static variable we are looking
for.
@return
An SBValue that gets filled in with the found variable (if any).") FindFirstGlobalVariable;
lldb::SBValue
FindFirstGlobalVariable (const char* name);
lldb::SBValueList
FindGlobalVariables(const char *name,
uint32_t max_matches,
MatchType matchtype);
lldb::SBSymbolContextList
FindGlobalFunctions(const char *name,
uint32_t max_matches,
MatchType matchtype);
void
Clear ();
%feature("docstring", "
Resolve a current file address into a section offset address.
@param[in] file_addr
@return
An SBAddress which will be valid if...") ResolveFileAddress;
lldb::SBAddress
ResolveFileAddress (lldb::addr_t file_addr);
lldb::SBAddress
ResolveLoadAddress (lldb::addr_t vm_addr);
lldb::SBAddress
ResolvePastLoadAddress (uint32_t stop_id, lldb::addr_t vm_addr);
SBSymbolContext
ResolveSymbolContextForAddress (const SBAddress& addr,
uint32_t resolve_scope);
%feature("docstring", "
Read target memory. If a target process is running then memory
is read from here. Otherwise the memory is read from the object
files. For a target whose bytes are sized as a multiple of host
bytes, the data read back will preserve the target's byte order.
@param[in] addr
A target address to read from.
@param[out] buf
The buffer to read memory into.
@param[in] size
The maximum number of host bytes to read in the buffer passed
into this call
@param[out] error
Error information is written here if the memory read fails.
@return
The amount of data read in host bytes.") ReadMemory;
size_t
ReadMemory (const SBAddress addr, void *buf, size_t size, lldb::SBError &error);
lldb::SBBreakpoint
BreakpointCreateByLocation (const char *file, uint32_t line);
lldb::SBBreakpoint
BreakpointCreateByLocation (const lldb::SBFileSpec &file_spec, uint32_t line);
lldb::SBBreakpoint
BreakpointCreateByLocation (const lldb::SBFileSpec &file_spec, uint32_t line, lldb::addr_t offset);
lldb::SBBreakpoint
BreakpointCreateByLocation (const lldb::SBFileSpec &file_spec, uint32_t line,
lldb::addr_t offset, SBFileSpecList &module_list);
lldb::SBBreakpoint
BreakpointCreateByLocation (const lldb::SBFileSpec &file_spec, uint32_t line,
uint32_t column, lldb::addr_t offset,
SBFileSpecList &module_list);
lldb::SBBreakpoint
BreakpointCreateByLocation (const lldb::SBFileSpec &file_spec, uint32_t line,
uint32_t column, lldb::addr_t offset,
SBFileSpecList &module_list,
bool move_to_nearest_code);
lldb::SBBreakpoint
BreakpointCreateByName (const char *symbol_name, const char *module_name = NULL);
lldb::SBBreakpoint
BreakpointCreateByName (const char *symbol_name,
uint32_t func_name_type, // Logical OR one or more FunctionNameType enum bits
const SBFileSpecList &module_list,
const SBFileSpecList &comp_unit_list);
lldb::SBBreakpoint
BreakpointCreateByName (const char *symbol_name,
uint32_t func_name_type, // Logical OR one or more FunctionNameType enum bits
lldb::LanguageType symbol_language,
const SBFileSpecList &module_list,
const SBFileSpecList &comp_unit_list);
#ifdef SWIGPYTHON
%typemap(in) (const char **symbol_name, uint32_t num_names) {
using namespace lldb_private;
/* Check if is a list */
if (PythonList::Check($input)) {
PythonList list(PyRefType::Borrowed, $input);
$2 = list.GetSize();
int i = 0;
$1 = (char**)malloc(($2+1)*sizeof(char*));
for (i = 0; i < $2; i++) {
PythonString py_str = list.GetItemAtIndex(i).AsType<PythonString>();
if (!py_str.IsAllocated()) {
PyErr_SetString(PyExc_TypeError,"list must contain strings and blubby");
free($1);
return nullptr;
}
$1[i] = const_cast<char*>(py_str.GetString().data());
}
$1[i] = 0;
} else if ($input == Py_None) {
$1 = NULL;
} else {
PyErr_SetString(PyExc_TypeError,"not a list");
return NULL;
}
}
#endif
lldb::SBBreakpoint
BreakpointCreateByNames (const char **symbol_name,
uint32_t num_names,
uint32_t name_type_mask, // Logical OR one or more FunctionNameType enum bits
const SBFileSpecList &module_list,
const SBFileSpecList &comp_unit_list);
lldb::SBBreakpoint
BreakpointCreateByNames (const char **symbol_name,
uint32_t num_names,
uint32_t name_type_mask, // Logical OR one or more FunctionNameType enum bits
lldb::LanguageType symbol_language,
const SBFileSpecList &module_list,
const SBFileSpecList &comp_unit_list);
lldb::SBBreakpoint
BreakpointCreateByNames (const char **symbol_name,
uint32_t num_names,
uint32_t name_type_mask, // Logical OR one or more FunctionNameType enum bits
lldb::LanguageType symbol_language,
lldb::addr_t offset,
const SBFileSpecList &module_list,
const SBFileSpecList &comp_unit_list);
lldb::SBBreakpoint
BreakpointCreateByRegex (const char *symbol_name_regex, const char *module_name = NULL);
lldb::SBBreakpoint
BreakpointCreateByRegex (const char *symbol_name_regex,
lldb::LanguageType symbol_language,
const SBFileSpecList &module_list,
const SBFileSpecList &comp_unit_list);
lldb::SBBreakpoint
BreakpointCreateBySourceRegex (const char *source_regex, const lldb::SBFileSpec &source_file, const char *module_name = NULL);
lldb::SBBreakpoint
BreakpointCreateBySourceRegex (const char *source_regex, const lldb::SBFileSpecList &module_list, const lldb::SBFileSpecList &file_list);
lldb::SBBreakpoint
BreakpointCreateBySourceRegex (const char *source_regex,
const SBFileSpecList &module_list,
const SBFileSpecList &source_file,
const SBStringList &func_names);
lldb::SBBreakpoint
BreakpointCreateForException (lldb::LanguageType language,
bool catch_bp,
bool throw_bp);
lldb::SBBreakpoint
BreakpointCreateByAddress (addr_t address);
lldb::SBEnvironment
GetEnvironment();
lldb::SBBreakpoint
BreakpointCreateBySBAddress (SBAddress &sb_address);
%feature("docstring", "
Create a breakpoint using a scripted resolver.
@param[in] class_name
This is the name of the class that implements a scripted resolver.
The class should have the following signature: ::
class Resolver:
def __init__(self, bkpt, extra_args):
# bkpt - the breakpoint for which this is the resolver. When
# the resolver finds an interesting address, call AddLocation
# on this breakpoint to add it.
#
# extra_args - an SBStructuredData that can be used to
# parametrize this instance. Same as the extra_args passed
# to BreakpointCreateFromScript.
def __get_depth__ (self):
# This is optional, but if defined, you should return the
# depth at which you want the callback to be called. The
# available options are:
# lldb.eSearchDepthModule
# lldb.eSearchDepthCompUnit
# The default if you don't implement this method is
# eSearchDepthModule.
def __callback__(self, sym_ctx):
# sym_ctx - an SBSymbolContext that is the cursor in the
# search through the program to resolve breakpoints.
# The sym_ctx will be filled out to the depth requested in
# __get_depth__.
# Look in this sym_ctx for new breakpoint locations,
# and if found use bkpt.AddLocation to add them.
# Note, you will only get called for modules/compile_units that
# pass the SearchFilter provided by the module_list & file_list
# passed into BreakpointCreateFromScript.
def get_short_help(self):
# Optional, but if implemented return a short string that will
# be printed at the beginning of the break list output for the
# breakpoint.
@param[in] extra_args
This is an SBStructuredData object that will get passed to the
constructor of the class in class_name. You can use this to
reuse the same class, parametrizing it with entries from this
dictionary.
@param module_list
If this is non-empty, this will be used as the module filter in the
SearchFilter created for this breakpoint.
@param file_list
If this is non-empty, this will be used as the comp unit filter in the
SearchFilter created for this breakpoint.
@return
An SBBreakpoint that will set locations based on the logic in the
resolver's search callback.") BreakpointCreateFromScript;
lldb::SBBreakpoint BreakpointCreateFromScript(
const char *class_name,
SBStructuredData &extra_args,
const SBFileSpecList &module_list,
const SBFileSpecList &file_list,
bool request_hardware = false);
uint32_t
GetNumBreakpoints () const;
lldb::SBBreakpoint
GetBreakpointAtIndex (uint32_t idx) const;
bool
BreakpointDelete (break_id_t break_id);
lldb::SBBreakpoint
FindBreakpointByID (break_id_t break_id);
bool FindBreakpointsByName(const char *name, SBBreakpointList &bkpt_list);
void DeleteBreakpointName(const char *name);
void GetBreakpointNames(SBStringList &names);
bool
EnableAllBreakpoints ();
bool
DisableAllBreakpoints ();
bool
DeleteAllBreakpoints ();
%feature("docstring", "
Read breakpoints from source_file and return the newly created
breakpoints in bkpt_list.
@param[in] source_file
The file from which to read the breakpoints
@param[out] bkpt_list
A list of the newly created breakpoints.
@return
An SBError detailing any errors in reading in the breakpoints.") BreakpointsCreateFromFile;
lldb::SBError
BreakpointsCreateFromFile(SBFileSpec &source_file,
SBBreakpointList &bkpt_list);
%feature("docstring", "
Read breakpoints from source_file and return the newly created
breakpoints in bkpt_list.
@param[in] source_file
The file from which to read the breakpoints
@param[in] matching_names
Only read in breakpoints whose names match one of the names in this
list.
@param[out] bkpt_list
A list of the newly created breakpoints.
@return
An SBError detailing any errors in reading in the breakpoints.") BreakpointsCreateFromFile;
lldb::SBError BreakpointsCreateFromFile(SBFileSpec &source_file,
SBStringList &matching_names,
SBBreakpointList &new_bps);
%feature("docstring", "
Write breakpoints to dest_file.
@param[in] dest_file
The file to which to write the breakpoints.
@return
An SBError detailing any errors in writing in the breakpoints.") BreakpointsCreateFromFile;
lldb::SBError
BreakpointsWriteToFile(SBFileSpec &dest_file);
%feature("docstring", "
Write breakpoints listed in bkpt_list to dest_file.
@param[in] dest_file
The file to which to write the breakpoints.
@param[in] bkpt_list
Only write breakpoints from this list.
@param[in] append
If true, append the breakpoints in bkpt_list to the others
serialized in dest_file. If dest_file doesn't exist, then a new
file will be created and the breakpoints in bkpt_list written to it.
@return
An SBError detailing any errors in writing in the breakpoints.") BreakpointsCreateFromFile;
lldb::SBError
BreakpointsWriteToFile(SBFileSpec &dest_file,
SBBreakpointList &bkpt_list,
bool append = false);
uint32_t
GetNumWatchpoints () const;
lldb::SBWatchpoint
GetWatchpointAtIndex (uint32_t idx) const;
bool
DeleteWatchpoint (lldb::watch_id_t watch_id);
lldb::SBWatchpoint
FindWatchpointByID (lldb::watch_id_t watch_id);
bool
EnableAllWatchpoints ();
bool
DisableAllWatchpoints ();
bool
DeleteAllWatchpoints ();
lldb::SBWatchpoint
WatchAddress (lldb::addr_t addr,
size_t size,
bool read,
bool write,
SBError &error);
lldb::SBBroadcaster
GetBroadcaster () const;
%feature("docstring", "
Create an SBValue with the given name by treating the memory starting at addr as an entity of type.
@param[in] name
The name of the resultant SBValue
@param[in] addr
The address of the start of the memory region to be used.
@param[in] type
The type to use to interpret the memory starting at addr.
@return
An SBValue of the given type, may be invalid if there was an error reading
the underlying memory.") CreateValueFromAddress;
lldb::SBValue
CreateValueFromAddress (const char *name, lldb::SBAddress addr, lldb::SBType type);
lldb::SBValue
CreateValueFromData (const char *name, lldb::SBData data, lldb::SBType type);
lldb::SBValue
CreateValueFromExpression (const char *name, const char* expr);
%feature("docstring", "
Disassemble a specified number of instructions starting at an address.
:param base_addr: the address to start disassembly from.
:param count: the number of instructions to disassemble.
:param flavor_string: may be 'intel' or 'att' on x86 targets to specify that style of disassembly.
:rtype: SBInstructionList
")
ReadInstructions;
lldb::SBInstructionList
ReadInstructions (lldb::SBAddress base_addr, uint32_t count);
lldb::SBInstructionList
ReadInstructions (lldb::SBAddress base_addr, uint32_t count, const char *flavor_string);
%feature("docstring", "
Disassemble the bytes in a buffer and return them in an SBInstructionList.
:param base_addr: used for symbolicating the offsets in the byte stream when disassembling.
:param buf: bytes to be disassembled.
:param size: (C++) size of the buffer.
:rtype: SBInstructionList
")
GetInstructions;
lldb::SBInstructionList
GetInstructions (lldb::SBAddress base_addr, const void *buf, size_t size);
%feature("docstring", "
Disassemble the bytes in a buffer and return them in an SBInstructionList, with a supplied flavor.
:param base_addr: used for symbolicating the offsets in the byte stream when disassembling.
:param flavor: may be 'intel' or 'att' on x86 targets to specify that style of disassembly.
:param buf: bytes to be disassembled.
:param size: (C++) size of the buffer.
:rtype: SBInstructionList
")
GetInstructionsWithFlavor;
lldb::SBInstructionList
GetInstructionsWithFlavor (lldb::SBAddress base_addr, const char *flavor_string, const void *buf, size_t size);
lldb::SBSymbolContextList
FindSymbols (const char *name, lldb::SymbolType type = eSymbolTypeAny);
bool
GetDescription (lldb::SBStream &description, lldb::DescriptionLevel description_level);
lldb::addr_t
GetStackRedZoneSize();
%feature("docstring", "
Returns true if the module has been loaded in this `SBTarget`.
A module can be loaded either by the dynamic loader or by being manually
added to the target (see `SBTarget.AddModule` and the `target module add` command).
:rtype: bool
") IsLoaded;
bool
IsLoaded (const lldb::SBModule &module) const;
lldb::SBLaunchInfo
GetLaunchInfo () const;
void
SetLaunchInfo (const lldb::SBLaunchInfo &launch_info);
void SetCollectingStats(bool v);
bool GetCollectingStats();
lldb::SBStructuredData GetStatistics();
bool
operator == (const lldb::SBTarget &rhs) const;
bool
operator != (const lldb::SBTarget &rhs) const;
lldb::SBValue
EvaluateExpression (const char *expr);
lldb::SBValue
EvaluateExpression (const char *expr, const lldb::SBExpressionOptions &options);
STRING_EXTENSION_LEVEL(SBTarget, lldb::eDescriptionLevelBrief)
#ifdef SWIGPYTHON
%pythoncode %{
class modules_access(object):
'''A helper object that will lazily hand out lldb.SBModule objects for a target when supplied an index, or by full or partial path.'''
def __init__(self, sbtarget):
self.sbtarget = sbtarget
def __len__(self):
if self.sbtarget:
return int(self.sbtarget.GetNumModules())
return 0
def __getitem__(self, key):
num_modules = self.sbtarget.GetNumModules()
if type(key) is int:
if key < num_modules:
return self.sbtarget.GetModuleAtIndex(key)
elif type(key) is str:
if key.find('/') == -1:
for idx in range(num_modules):
module = self.sbtarget.GetModuleAtIndex(idx)
if module.file.basename == key:
return module
else:
for idx in range(num_modules):
module = self.sbtarget.GetModuleAtIndex(idx)
if module.file.fullpath == key:
return module
# See if the string is a UUID
try:
the_uuid = uuid.UUID(key)
if the_uuid:
for idx in range(num_modules):
module = self.sbtarget.GetModuleAtIndex(idx)
if module.uuid == the_uuid:
return module
except:
return None
elif type(key) is uuid.UUID:
for idx in range(num_modules):
module = self.sbtarget.GetModuleAtIndex(idx)
if module.uuid == key:
return module
elif type(key) is re.SRE_Pattern:
matching_modules = []
for idx in range(num_modules):
module = self.sbtarget.GetModuleAtIndex(idx)
re_match = key.search(module.path.fullpath)
if re_match:
matching_modules.append(module)
return matching_modules
else:
print("error: unsupported item type: %s" % type(key))
return None
def get_modules_access_object(self):
'''An accessor function that returns a modules_access() object which allows lazy module access from a lldb.SBTarget object.'''
return self.modules_access (self)
def get_modules_array(self):
'''An accessor function that returns a list() that contains all modules in a lldb.SBTarget object.'''
modules = []
for idx in range(self.GetNumModules()):
modules.append(self.GetModuleAtIndex(idx))
return modules
def module_iter(self):
'''Returns an iterator over all modules in a lldb.SBTarget
object.'''
return lldb_iter(self, 'GetNumModules', 'GetModuleAtIndex')
def breakpoint_iter(self):
'''Returns an iterator over all breakpoints in a lldb.SBTarget
object.'''
return lldb_iter(self, 'GetNumBreakpoints', 'GetBreakpointAtIndex')
def watchpoint_iter(self):
'''Returns an iterator over all watchpoints in a lldb.SBTarget
object.'''
return lldb_iter(self, 'GetNumWatchpoints', 'GetWatchpointAtIndex')
modules = property(get_modules_array, None, doc='''A read only property that returns a list() of lldb.SBModule objects contained in this target. This list is a list all modules that the target currently is tracking (the main executable and all dependent shared libraries).''')
module = property(get_modules_access_object, None, doc=r'''A read only property that returns an object that implements python operator overloading with the square brackets().\n target.module[<int>] allows array access to any modules.\n target.module[<str>] allows access to modules by basename, full path, or uuid string value.\n target.module[uuid.UUID()] allows module access by UUID.\n target.module[re] allows module access using a regular expression that matches the module full path.''')
process = property(GetProcess, None, doc='''A read only property that returns an lldb object that represents the process (lldb.SBProcess) that this target owns.''')
executable = property(GetExecutable, None, doc='''A read only property that returns an lldb object that represents the main executable module (lldb.SBModule) for this target.''')
debugger = property(GetDebugger, None, doc='''A read only property that returns an lldb object that represents the debugger (lldb.SBDebugger) that owns this target.''')
num_breakpoints = property(GetNumBreakpoints, None, doc='''A read only property that returns the number of breakpoints that this target has as an integer.''')
num_watchpoints = property(GetNumWatchpoints, None, doc='''A read only property that returns the number of watchpoints that this target has as an integer.''')
broadcaster = property(GetBroadcaster, None, doc='''A read only property that an lldb object that represents the broadcaster (lldb.SBBroadcaster) for this target.''')
byte_order = property(GetByteOrder, None, doc='''A read only property that returns an lldb enumeration value (lldb.eByteOrderLittle, lldb.eByteOrderBig, lldb.eByteOrderInvalid) that represents the byte order for this target.''')
addr_size = property(GetAddressByteSize, None, doc='''A read only property that returns the size in bytes of an address for this target.''')
triple = property(GetTriple, None, doc='''A read only property that returns the target triple (arch-vendor-os) for this target as a string.''')
data_byte_size = property(GetDataByteSize, None, doc='''A read only property that returns the size in host bytes of a byte in the data address space for this target.''')
code_byte_size = property(GetCodeByteSize, None, doc='''A read only property that returns the size in host bytes of a byte in the code address space for this target.''')
platform = property(GetPlatform, None, doc='''A read only property that returns the platform associated with with this target.''')
%}
#endif
};
} // namespace lldb