- the guard variable for the static result
variable was being mistaken for the actual
result value, causing IRForTarget to fail
- LLVM builtins like memcpy were not being
properly resolved; now they are resolved
to the corresponding function in the target
llvm-svn: 114990
command on the various basic types, similar to TestIntegerTypes.py and
TestFloatTypes.py, which exercise 'frame variable' on the various basic types.
Right now, they don't employ the self.expect() facility to compare against the
golden output. They just invoke the self.runCmd() method to run the 'expr'
command. Decorated the two classes with @unittest2.skip decorators for the time
being.
llvm-svn: 114987
Error in object runtime language detection code (spurious '; ')
Also replace false by NULL in a place where the compiler expects a pointer instead of a bool.
llvm-svn: 114957
method. Renamed it to be AbstractBase.py, which contains the GenericTester class that
both IntegerTypesTestCase and FloatTypesTestCase inherit from.
llvm-svn: 114926
type tester method into its own abstarct base class 'AbstractBase'. And
added TestIntegerTypes.py and TestFloatTypes.py.
Added an option "-p reg-exp-pattern" to the test driver to specify a regular
expression pattern to match against eligible filenames as our test cases.
An example:
/Volumes/data/lldb/svn/trunk/test $ ./dotest.py -v -p "TestFloat.*" types
----------------------------------------------------------------------
Collected 4 tests
test_double_type_with_dsym (TestFloatTypes.FloatTypesTestCase)
Test that double-type variables are displayed correctly. ... ok
test_double_type_with_dwarf (TestFloatTypes.FloatTypesTestCase)
Test that double-type variables are displayed correctly. ... ok
test_float_type_with_dwarf (TestFloatTypes.FloatTypesTestCase)
Test that float-type variables are displayed correctly. ... ok
test_float_types_with_dsym (TestFloatTypes.FloatTypesTestCase)
Test that float-type variables are displayed correctly. ... ok
----------------------------------------------------------------------
Ran 4 tests in 5.592s
OK
llvm-svn: 114923
Added a special "clean" target to the types/Makefile to clean up all the *.o/.d
files.
The generic_type_tester() method is modified to take a set of atoms, instead of
type string as a required parameter, for example:
o unsigned int => set(['unsigned', 'int'])
o unsigned long long => set(['unsigned', 'long long'])
o long long => set(['long long'])
llvm-svn: 114871
an auto-generated Python function, and pass the stoppoint context frame and
breakpoint location as parameters to the function (named 'frame' and 'bp_loc'),
to be used inside the breakpoint command Python code, if desired.
llvm-svn: 114849
Change default 'set' behavior so that all instance settings for the specified variable will be
updated, unless the "-n" ("--no_override") command options is specified.
llvm-svn: 114808
Added a virtual destructor to ClangUtilityFunction with a body to it cleans
itself up.
Moved our SharingPtr into the lldb_private namespace to keep it easy to make
an exports file that exports only what is needed ("lldb::*").
llvm-svn: 114771
Extended generic_type_tester() method to take an additional keyword argument
quoteDisplay (default to False) to facilitate comparison with frame variable
display output of character types.
llvm-svn: 114769
interface in ClangASTContext. Also added two bool returning functions that
indicated if an opaque clang qual type is a CXX class type, and if it is an
ObjC class type.
Objective C classes now will get their methods added lazily as they are
encountered. The reason for this is currently, unlike C++, the
DW_TAG_structure_type and owns the ivars, doesn't not also contain the
member functions. This means when we parse the objective C class interface
we either need to find all functions whose names start with "+[CLASS_NAME"
or "-[CLASS_NAME" and add them all to the class, or when we parse each objective
C function, we slowly add it to the class interface definition. Since objective
C's class doesn't change internal bits according to whether it has certain types
of member functions (like C++ does if it has virtual functions, or if it has
user ctors/dtors), I currently chose to lazily populate the class when each
functions is parsed. Another issue we run into with ObjC method declarations
is the "self" and "_cmd" implicit args are not marked as artificial in the
DWARF (DW_AT_artifical), so we currently have to look for the parameters by
name if we are trying to omit artificial function args if the language of the
compile unit is ObjC or ObjC++.
llvm-svn: 114722
testing various combinations of displaying variales of basic types.
The generic_type_tester() works by first capturing the golden output produced
by the printf stmts of ./a.out, creating a list of (var, value) pairs, and then
running the a.out to a stop point, and comparing the 'frame variable var' output
against the list of (var, value) pairs.
Modified int_type() and added long_type() to use generic_type_tester().
Also modified TestBase.expect() such that substring matching also return ok if
the substring starts at the 0-th position.
llvm-svn: 114708
- Sema is now exported (and there was much rejoicing.)
- Storage classes are now centrally defined.
Also fixed some bugs that the new LLVM picked up.
llvm-svn: 114622
into python-extensions.swig, which gets included into lldb.swig, and
adds them back into the classes when swig generates it's C++ file. This
keeps the Python stuff out of the general API classes.
Also fixed a small bug in the copy constructor for SBSymbolContext.
llvm-svn: 114602
actually test-and-compare anything yet. The lldbtest.TestBase has an added
method setTearDownCleanup(dictionary=None) to facilitate running the cleanup
right after each data type test is run. The test case can pass a dictionary
object when registering the test case cleanup.
There is currently only int_type test in the repository.
llvm-svn: 114600
whether a given register number is treated as volatile
or not for a given architecture/platform.
approx 450 lines of boilerplate, 50 lines of actual code. :)
llvm-svn: 114537
themselves. Right now, it tests a breakpoint both before and after it has been
resolved.
Updated lldbtest.TestBase.expect() with an additional keyword argument 'exe' (
default to True), which if set to False, will treat the mandatory first argument
as just the string to be matched/or not-matched against the golden input.
llvm-svn: 114501
Fix minor bug in 'commands alias'; alias commands can now handle command options
and arguments in the same alias. Also fixes problem that disallowed "process launch --" as
an alias.
Fix typo in comment in Python script interpreter.
llvm-svn: 114499
of 'breakpoint command add/list/remove' commands to set breakpoint callbacks,
list them, and then remove one.
Modified the lldbtest.TestBase.expect() method to add two additional keyword
arguments:
o matching (default to True), which, if set to False, reverses the semantics of
'expect' to 'expect not'
o patterns (default to None), which specifies a list of regexp patterns to match
against the output from running the command
TestBreakpointCommand.py uses the matching=False and the patterns=[...] expect()
API.
llvm-svn: 114480
for C++ classes. Replaced it with a less hacky approach:
- If an expression is defined in the context of a
method of class A, then that expression is wrapped as
___clang_class::___clang_expr(void*) { ... }
instead of ___clang_expr(void*) { ... }.
- ___clang_class is resolved as the type of the target
of the "this" pointer in the method the expression
is defined in.
- When reporting the type of ___clang_class, a method
with the signature ___clang_expr(void*) is added to
that class, so that Clang doesn't complain about a
method being defined without a corresponding
declaration.
- Whenever the expression gets called, "this" gets
looked up, type-checked, and then passed in as the
first argument.
This required the following changes:
- The ABIs were changed to support passing of the "this"
pointer as part of trivial calls.
- ThreadPlanCallFunction and ClangFunction were changed
to support passing of an optional "this" pointer.
- ClangUserExpression was extended to perform the
wrapping described above.
- ClangASTSource was changed to revert the changes
required by the hack.
- ClangExpressionParser, IRForTarget, and
ClangExpressionDeclMap were changed to handle
different manglings of ___clang_expr flexibly. This
meant no longer searching for a function called
___clang_expr, but rather looking for a function whose
name *contains* ___clang_expr.
- ClangExpressionParser and ClangExpressionDeclMap now
remember whether "this" is required, and know how to
look it up as necessary.
A few inheritance bugs remain, and I'm trying to resolve
these. But it is now possible to use "this" as well as
refer implicitly to member variables, when in the proper
context.
llvm-svn: 114384
order to customize the running of the test suite. For the time being, the
supported customizations are:
o redirecting stdout and/or stderr
o specifying a list of compilers to build the test programs
o specifying a list of architectures to build the test programs for
Also checked into the examples/test directory some example files which
demonstrate the usage for the above customizations.
$ ./dotest.py -v -c ~/.lldbtest-config persistent_variables
$ cat ~/.lldbtest-config
sys.stderr = open("/tmp/lldbtest-stderr", "w")
sys.stdout = open("/tmp/lldbtest-stdout", "w")
compilers = ["gcc", "llvm-gcc"]
archs = ["x86_64", "i386"]
$ cat /tmp/lldbtest-stderr
----------------------------------------------------------------------
Collected 1 test
Configuration: arch=x86_64 compiler=gcc
test_persistent_variables (TestPersistentVariables.PersistentVariablesTestCase)
Test that lldb persistent variables works correctly. ... ok
----------------------------------------------------------------------
Ran 1 test in 1.397s
OK
Configuration: arch=x86_64 compiler=llvm-gcc
test_persistent_variables (TestPersistentVariables.PersistentVariablesTestCase)
Test that lldb persistent variables works correctly. ... ok
----------------------------------------------------------------------
Ran 1 test in 1.282s
OK
Configuration: arch=i386 compiler=gcc
test_persistent_variables (TestPersistentVariables.PersistentVariablesTestCase)
Test that lldb persistent variables works correctly. ... ok
----------------------------------------------------------------------
Ran 1 test in 1.297s
OK
Configuration: arch=i386 compiler=llvm-gcc
test_persistent_variables (TestPersistentVariables.PersistentVariablesTestCase)
Test that lldb persistent variables works correctly. ... ok
----------------------------------------------------------------------
Ran 1 test in 1.269s
OK
$ cat /tmp/lldbtest-stdout
$
llvm-svn: 114380
the parent of Process settings; add 'default-arch' as a
class-wide setting for Target. Replace lldb::GetDefaultArchitecture
with Target::GetDefaultArchitecture & Target::SetDefaultArchitecture.
Add 'use-external-editor' as user setting to Debugger class & update
code appropriately.
Add Error parameter to methods that get user settings, for easier
reporting of bad requests.
Fix various other minor related bugs.
Fix test cases to work with new changes.
llvm-svn: 114352
replacing the "(lldb)" prompt, the "frame #1..." displays when doing
stack backtracing and the "thread #1....". This will allow you to see
exactly the information that you want to see where you want to see it.
This currently isn't hookup up to the prompts yet, but it will be soon.
So what is the format of the prompts? Prompts can contain variables that
have access to the current program state. Variables are text that appears
in between a prefix of "${" and ends with a "}". Some of the interesting
variables include:
// The frame index (0, 1, 2, 3...)
${frame.index}
// common frame registers with generic names
${frame.pc}
${frame.sp}
${frame.fp}
${frame.ra}
${frame.flags}
// Access to any frame registers by name where REGNAME is any register name:
${frame.reg.REGNAME}
// The current compile unit file where the frame is located
${file.basename}
${file.fullpath}
// Function information
${function.name}
${function.pc-offset}
// Process info
${process.file.basename}
${process.file.fullpath}
${process.id}
${process.name}
// Thread info
${thread.id}
${thread.index}
${thread.name}
${thread.queue}
${thread.stop-reason}
// Target information
${target.arch}
// The current module for the current frame (the shared library or executable
// that contains the current frame PC value):
${module.file.basename}
${module.file.fullpath}
// Access to the line entry for where the current frame is when your thread
// is stopped:
${line.file.basename}
${line.file.fullpath}
${line.number}
${line.start-addr}
${line.end-addr}
Many times the information that you might have in your prompt might not be
available and you won't want it to print out if it isn't valid. To take care
of this you can enclose everything that must resolve into a scope. A scope
is starts with '{' and ends with '}'. For example in order to only display
the current file and line number when the information is available the format
would be:
"{ at {$line.file.basename}:${line.number}}"
Broken down this is:
start the scope: "{"
format whose content will only be displayed if all information is available:
"at {$line.file.basename}:${line.number}"
end the scope: "}"
We currently can represent the infomration we see when stopped at a frame:
frame #0: 0x0000000100000e85 a.out`main + 4 at test.c:19
with the following format:
"frame #${frame.index}: ${frame.pc} {${module.file.basename}`}{${function.name}{${function.pc-offset}}{ at ${line.file.basename}:${line.number}}\n"
This breaks down to always print:
"frame #${frame.index}: ${frame.pc} "
only print the module followed by a tick if we have a valid module:
"{${module.file.basename}`}"
print the function name with optional offset:
"{${function.name}{${function.pc-offset}}"
print the line info if it is available:
"{ at ${line.file.basename}:${line.number}}"
then finish off with a newline:
"\n"
Notice you can also put newlines ("\n") and tabs and everything else you
are used to putting in a format string when desensitized with the \ character.
Cleaned up some of the user settings controller subclasses. All of them
do not have any global settings variables and were all implementing stubs
for the get/set global settings variable. Now there is a default version
in UserSettingsController that will do nothing.
llvm-svn: 114306
- All single character options will now be printed together
- Changed all options that contains underscores to contain '-' instead
- Made the help come out a little flatter by showing the long and short
option on the same line.
- Modified the short character for "--ignore-count" options to "-i"
llvm-svn: 114265
Fixed an issue with ClangASTContext::GetIndexOfChildMemberWithName()
where objective C ivars were not being found correctly if they were
the second or higher child.
llvm-svn: 114258
accessed by the objects that own the settings. The previous approach wasn't
very usable and made for a lot of unnecessary code just to access variables
that were already owned by the objects.
While I fixed those things, I saw that CommandObject objects should really
have a reference to their command interpreter so they can access the terminal
with if they want to output usaage. Fixed up all CommandObjects to take
an interpreter and cleaned up the API to not need the interpreter to be
passed in.
Fixed the disassemble command to output the usage if no options are passed
down and arguments are passed (all disassebmle variants take options, there
are no "args only").
llvm-svn: 114252
the running of the test suite. Right now, it doesn't do anything with the
config file.
Pass "-c myConfigFile" to specify the config file.
llvm-svn: 114245
to evaluate expressions. Marked with @expectedFailure decorators for the time
being.
Enhanced the lldbtest.TestBase.expect() API to allow an additional keyword arg
named "error". If the client passes "error=True", it signifies that an error
while running the command is expected. The golden input is then compared
against the return object's error output.
llvm-svn: 114228
(lldb) breakpoint set -S description
and a compilation unit defined instance method with:
(lldb) breakpoint set -n '-[MyString initWithNSString:]'
llvm-svn: 114134
build tree relative search path in order to locate the lldb.py module. When
'-i' is present, the test driver relies on the PYTHONPATH environment variable
to locate the lldb.py module.
llvm-svn: 114094
This will remove the confusion experienced when previous test runs left some
files (both intermediate or by-product as a result of the test).
lldbtest.TestBase defines a classmethod tearDownClass(cls) which invokes the
platform-specific cleanup() function as defined by the plugin; after that, it
invokes a subclass-specific function classCleanup(cls) if defined; and, finally,
it restores the old working directory.
An example of classCleanup(cls) is in settings/TestSettings.py:
@classmethod
def classCleanup(cls):
system(["/bin/sh", "-c", "rm output.txt"])
where it deletes the by-product "output.txt" as a result of running a.out.
llvm-svn: 114058
(lldb) settings set process.run-args A B C
(lldb) settings set process.env-vars ["MY_ENV_VAR"]=YES
commands. The main.cpp checks whether A, B, C is passed to main and whether
the $MY_ENV_VAR env variable is defined and outputs the findings to a file.
llvm-svn: 114031
lldb.py module. The priorities to search for are Debug, Release, then
BuildAndIntegration. You can always override this with a valid PYTHONPATH
environment variable before running the test driver.
For example:
$ PYTHONPATH=/Find/My/LLDB/Module/Here ./dotest.py -v .
Python runtime will try to locate the lldb.py module from
/Find/My/LLDB/Module/Here first before trying the Debug, Release, and then
BuildAndIntegration directories.
llvm-svn: 113991
find the hotspots in our code when indexing the DWARF. A combination of
using SmallVector to avoid collection allocations, using fixed form
sizes when possible, and optimizing the hot loops contributed to the
speedup.
llvm-svn: 113961
or a settings prefix, and it will list information about the subset of settings
you requested. Also added tab-completion (now that it takes an optional argument).
llvm-svn: 113952
Added a "bool show_fullpaths" to many more objects that were
previously always dumping full paths.
Fixed a few places where the DWARF was not indexed when we
we needed it to be when making queries. Also fixed an issue
where the DWARF in .o files wasn't searching all .o files
for the types.
Fixed an issue with the output from "image lookup --type <TYPENAME>"
where the name and byte size might not be resolved and might not
display. We now call the accessors so we end up seeing all of the
type info.
llvm-svn: 113951
interpreter from working. The communication read thread could
startup and immediately exit if m_read_thread_enabled was
checked in the thread function before it was set by the
thread that spawns the read thread. Now m_read_thread_enabled is set
to true prior to spawning the read thread to avoid this issue.
Hopefully this will clear up the sporatic failures in our test suite.
llvm-svn: 113947
all types in all compile units. I added a new kind of accelerator table to
the DWARF that allows us to index the DWARF compile units and DIEs in a way
that doesn't require the data to stay loaded. Currently when indexing the
DWARF we check if the compile unit had parsed its DIEs and if it hasn't we
index the data and free all of the DIEs so we can reparse later when we need
to after using one of our complete accelerator tables to determine we need
to reparse some DWARF. If the DIEs had already been parsed we leave them
loaded. The new accelerator table uses the "const char *" pointers from our
ConstString class as the keys, and NameToDIE::Info as the value. This info
contains the compile unit index and the DIE index which means we are pointed
right to the DIE we need unlike the other DWARF accelerator tables that often
just point us to the compile unit we would find our answer in.
llvm-svn: 113933
Added the ability to specify a preference for mangled or demangled to Mangled::GetName.
Changed one place where mangled was prefered in GetName.
The Dynamic loader should look up the target of a stub by mangled name if it exists.
llvm-svn: 113869
as it now passes. Added some extra tests to breakpoint_creation_by_filespec_python().
More clarification for the "os command" output and error as defined in
lldbtest.system() function.
Cleaned up the option processing of the test driver (dotest.py) and fixed the comment
about enabling gdb-remote logging. Example:
$ GDB_REMOTE_LOG=/tmp/log.txt ./dotest.py -v -t enum_types
llvm-svn: 113868
expressions. This involved three main changes:
- In ClangUserExpression::ClangUserExpression(),
we now insert the following lines into the
expression:
#define this ___clang_this
#define self ___clang_self
- In ClangExpressionDeclMap::GetDecls(), we
special-case ___clang_(this|self) and instead
look up "this" or "self"
- In ClangASTSource, we introduce the capability
to generate Decls with a different, overridden,
name from the one that was requested, e.g.
this for ___clang_this.
llvm-svn: 113866
to any inferior process because the code was checking if no run args were
set and then adding and empty string. This was happening for environment
vars as well.
llvm-svn: 113831
to return the correct result.
Fixed "bool Variable::IsInScope (StackFrame *frame)" to return the correct
result when there are no location lists.
Modified the "frame variable" command such that:
- if no arguments are given (dump all frame variables), then we only show
variables that are currently in scope
- if some arguments are given, we show an error if the variable is out of
scope
llvm-svn: 113830
debug map showed that the location lists in the .o files needed some
refactoring in order to work. The case that was failing was where a function
that was in the "__TEXT.__textcoal_nt" in the .o file, and in the
"__TEXT.__text" section in the main executable. This made symbol lookup fail
due to the way we were finding a real address in the debug map which was
by finding the section that the function was in in the .o file and trying to
find this in the main executable. Now the section list supports finding a
linked address in a section or any child sections. After fixing this, we ran
into issue that were due to DWARF and how it represents locations lists.
DWARF makes a list of address ranges and expressions that go along with those
address ranges. The location addresses are expressed in terms of a compile
unit address + offset. This works fine as long as nothing moves around. When
stuff moves around and offsets change between the remapped compile unit base
address and the new function address, then we can run into trouble. To deal
with this, we now store supply a location list slide amount to any location
list expressions that will allow us to make the location list addresses into
zero based offsets from the object that owns the location list (always a
function in our case).
With these fixes we can now re-link random address ranges inside the debugger
for use with our DWARF + debug map, incremental linking, and more.
Another issue that arose when doing the DWARF in the .o files was that GCC
4.2 emits a ".debug_aranges" that only mentions functions that are externally
visible. This makes .debug_aranges useless to us and we now generate a real
address range lookup table in the DWARF parser at the same time as we index
the name tables (that are needed because .debug_pubnames is just as useless).
llvm-gcc doesn't generate a .debug_aranges section, though this could be
fixed, we aren't going to rely upon it.
Renamed a bunch of "UINT_MAX" to "UINT32_MAX".
llvm-svn: 113829
was used to set the selected thread if none was selected. Use a more robust
API to accomplish the task.
Also fixed an error found, while investigating, in CommandObjectThreadSelect::
Execute() where the return status was not properly set if successful.
As a result, both the stl step-in test cases with expectedFailure decorators now
passed.
llvm-svn: 113825
- If you put a semicolon at the end of an expression,
this no longer causes the expression parser to
error out. This was a two-part fix: first,
ClangExpressionDeclMap::Materialize now handles
an empty struct (such as when there is no return
value); second, ASTResultSynthesizer walks backward
from the end of the ASTs until it reaches something
that's not a NullStmt.
- ClangExpressionVariable now properly byte-swaps when
printing itself.
- ClangUtilityFunction now cleans up after itself when
it's done compiling itself.
- Utility functions can now use external functions just
like user expressions.
- If you end your expression with a statement that does
not return a value, the expression now runs correctly
anyway.
Also, added the beginnings of an Objective-C object
validator function, which is neither installed nor used
as yet.
llvm-svn: 113789
the binaries.
If the build* function is passed the compiler argument, for example, 'llvm-gcc',
it is passed as a make variable to the make command. Otherwise, we check the
LLDB_CC environment variable; if it is defined, it is passed as a make variable
to the make command.
If neither the compiler keyword argument nor the LLDB_CC environment variable is
specified, no CC make variable is passed to the make command. The Makefile gets
to define the default CC being used.
--------------------------------------------------------------------------------
Example usage follows:
o Via the keyword argument:
class ArrayTypesTestCase(TestBase):
mydir = "array_types"
@unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin")
def test_with_dsym_and_run_command(self):
"""Test 'frame variable var_name' on some variables with array types."""
self.buildDsym(compiler='llvm-gcc')
self.array_types()
...
o Via LLDB_CC environment variable:
$ LLDB_CC=llvm-gcc ./dotest.py -v -t array_types
----------------------------------------------------------------------
Collected 4 tests
test_with_dsym_and_python_api (TestArrayTypes.ArrayTypesTestCase)
Use Python APIs to inspect variables with array types. ...
os command: [['/bin/sh', '-c', 'make clean; make MAKE_DSYM=YES CC=llvm-gcc']]
output: rm -rf "a.out" "a.out.dSYM" main.o main.d
llvm-gcc -arch x86_64 -gdwarf-2 -O0 -arch x86_64 -gdwarf-2 -O0 -c -o main.o main.c
llvm-gcc -arch x86_64 -gdwarf-2 -O0 main.o -o "a.out"
/usr/bin/dsymutil -o "a.out.dSYM" "a.out"
...
llvm-svn: 113781
no elements so that they at least have 1 element.
Added the ability to show the declaration location of variables to the
"frame variables" with the "--show-declaration" option ("-c" for short).
Changed the "frame variables" command over to use the value object code
so that we use the same code path as the public API does when accessing and
displaying variable values.
llvm-svn: 113733
static class array. It turns out that gcc 4.2 will emit DWARF that correctly
describes the PointType, but it will incorrectly emit debug info for the
"g_points" array where the following things are wrong:
- the DW_TAG_array_type won't have a subrange info
- the DW_TAG_variable for "g_points" won't have a valid byte size, so even
though we know the size of PointType, we can't infer the actual size
of the array by dividing the size of the variable by the number of
elements.
We want to make sure clang and llvm-gcc handle this correctly.
llvm-svn: 113730
union, or class that contained an enumeration type. When I was creating
the clang enumeration decl, I wasn't calling "EnumDecl::setIntegerType (QualType)"
which means that if the enum decl was ever asked to figure out it's bit width
(getTypeInfo()) it would crash. We didn't run into this with enum types that
weren't inside classes because the DWARF already told us how big the type was
and when we printed an enum we would never need to calculate the size, we
would use the pre-cached byte size we got from the DWARF. When the enum was
in a struct/union/class and we tried to layout the struct, the layout code
would attempt to get the type info and segfault.
llvm-svn: 113729
Fixed an issue where LLDB would fail to set a breakpoint by
file and line if the DWARF line table has multiple file entries
in the support files for a source file.
llvm-svn: 113721
we cached remapping information using the old nlist index to the
new symbol index, yet we tried to lookup the symbol stubs that
were for symbols that had been remapped by ID instead of using
the new symbol index. This is now fixed and the mach-o symbol tables
are fixed.
Use the delta between two vector entries to determine the stride
in case any padding is inserted by compilers for bsearch calls
on symbol tables when finding symbols by their original ID.
llvm-svn: 113719
They will now be represented as:
eSymbolTypeFunction: eSymbolTypeCode with IsDebug() == true
eSymbolTypeGlobal: eSymbolTypeData with IsDebug() == true and IsExternal() == true
eSymbolTypeStatic: eSymbolTypeData with IsDebug() == true and IsExternal() == false
This simplifies the logic when dealing with symbols and allows for symbols
to be coalesced into a single symbol most of the time.
Enabled the minimal symbol table for mach-o again after working out all the
kinks. We now get nice concise symbol tables and debugging with DWARF in the
.o files with a debug map in the binary works well again. There were issues
where the SymbolFileDWARFDebugMap symbol file parser was using symbol IDs and
symbol indexes interchangeably. Now that all those issues are resolved
debugging is working nicely.
llvm-svn: 113678
to specify a one-liner (either scripting or lldb command) inline.
Refactored CommandObjectBreakpointCommandAdd::Execute() a little bit and added
some comments.
Sn now, we use:
breakpoint command add -p 1 -o "conditional_break.stop_if_called_from_a()"
to specify a Python one-liner as the callback for breakpoint #1.
llvm-svn: 113672
SBValue to access it. For now this is just the result of ObjC NSPrintForDebugger,
but could be extended. Also store the results of the ObjC Object Printer in a
Stream, not a ConstString.
llvm-svn: 113660
pointed out by Jim Ingham. The convenient one-liner specification should only
apply when there is only one breakpoint id being specified for the time being.
llvm-svn: 113609
up a seciton offset address (SBAddress) within a module that returns a
symbol context (SBSymbolContext). Also added a SBSymbolContextList in
preparation for adding find/lookup APIs that can return multiple results.
Added a lookup example code that shows how to do address lookups.
llvm-svn: 113599
command for a breakpoint, for example:
(lldb) breakpoint command add -p 1 "conditional_break.stop_if_called_from_a()"
The ScriptInterpreter interface has an extra method:
/// Set a one-liner as the callback for the breakpoint command.
virtual void
SetBreakpointCommandCallback (CommandInterpreter &interpreter,
BreakpointOptions *bp_options,
const char *oneliner);
to accomplish the above.
Also added a test case to demonstrate lldb's use of breakpoint callback command
to stop at function c() only when its immediate caller is function a(). The
following session shows the user entering the following commands:
1) command source .lldb (set up executable, breakpoint, and breakpoint command)
2) run (the callback mechanism will skip two breakpoints where c()'s immeidate caller is not a())
3) bt (to see that indeed c()'s immediate caller is a())
4) c (to continue and finish the program)
test/conditional_break $ ../../build/Debug/lldb
(lldb) command source .lldb
Executing commands in '.lldb'.
(lldb) file a.out
Current executable set to 'a.out' (x86_64).
(lldb) breakpoint set -n c
Breakpoint created: 1: name = 'c', locations = 1
(lldb) script import sys, os
(lldb) script sys.path.append(os.path.join(os.getcwd(), os.pardir))
(lldb) script import conditional_break
(lldb) breakpoint command add -p 1 "conditional_break.stop_if_called_from_a()"
(lldb) run
run
Launching '/Volumes/data/lldb/svn/trunk/test/conditional_break/a.out' (x86_64)
(lldb) Checking call frames...
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`b at main.c:34
frame #2: a.out`a at main.c:25
frame #3: a.out`main at main.c:44
frame #4: a.out`start
c called from b
Continuing...
Checking call frames...
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`b at main.c:34
frame #2: a.out`main at main.c:47
frame #3: a.out`start
c called from b
Continuing...
Checking call frames...
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`a at main.c:27
frame #2: a.out`main at main.c:50
frame #3: a.out`start
c called from a
Stopped at c() with immediate caller as a().
a(1) returns 4
b(2) returns 5
Process 20420 Stopped
* thread #1: tid = 0x2e03, 0x0000000100000de8 a.out`c + 7 at main.c:39, stop reason = breakpoint 1.1, queue = com.apple.main-thread
36
37 int c(int val)
38 {
39 -> return val + 3;
40 }
41
42 int main (int argc, char const *argv[])
(lldb) bt
bt
thread #1: tid = 0x2e03, stop reason = breakpoint 1.1, queue = com.apple.main-thread
frame #0: 0x0000000100000de8 a.out`c + 7 at main.c:39
frame #1: 0x0000000100000dbc a.out`a + 44 at main.c:27
frame #2: 0x0000000100000e4b a.out`main + 91 at main.c:50
frame #3: 0x0000000100000d88 a.out`start + 52
(lldb) c
c
Resuming process 20420
Process 20420 Exited
a(3) returns 6
(lldb)
llvm-svn: 113596
The Unwind and RegisterContext subclasses still need
to be finished; none of this code is used by lldb at
this point (unless you call into it by hand).
The ObjectFile class now has an UnwindTable object.
The UnwindTable object has a series of FuncUnwinders
objects (Function Unwinders) -- one for each function
in that ObjectFile we've backtraced through during this
debug session.
The FuncUnwinders object has a few different UnwindPlans.
UnwindPlans are a generic way of describing how to find
the canonical address of a given function's stack frame
(the CFA idea from DWARF/eh_frame) and how to restore the
caller frame's register values, if they have been saved
by this function.
UnwindPlans are created from different sources. One source is the
eh_frame exception handling information generated by the compiler
for unwinding an exception throw. Another source is an assembly
language inspection class (UnwindAssemblyProfiler, uses the Plugin
architecture) which looks at the instructions in the funciton
prologue and describes the stack movements/register saves that are
done.
Two additional types of UnwindPlans that are worth noting are
the "fast" stack UnwindPlan which is useful for making a first
pass over a thread's stack, determining how many stack frames there
are and retrieving the pc and CFA values for each frame (enough
to create StackFrameIDs). Only a minimal set of registers is
recovered during a fast stack walk.
The final UnwindPlan is an architectural default unwind plan.
These are provided by the ArchDefaultUnwindPlan class (which uses
the plugin architecture). When no symbol/function address range can
be found for a given pc value -- when we have no eh_frame information
and when we don't have a start address so we can't examine the assembly
language instrucitons -- we have to make a best guess about how to
unwind. That's when we use the architectural default UnwindPlan.
On x86_64, this would be to assume that rbp is used as a stack pointer
and we can use that to find the caller's frame pointer and pc value.
It's a last-ditch best guess about how to unwind out of a frame.
There are heuristics about when to use one UnwindPlan versues the other --
this will all happen in the still-begin-written UnwindLLDB subclass of
Unwind which runs the UnwindPlans.
llvm-svn: 113581
cleaning up the output of many GetDescription objects that are part of a
symbol context. This fixes an issue where no ranges were being printed out
for functions, blocks and symbols.
llvm-svn: 113571
to be set up the way they are. Comment out code that removes pending
settings for live instances (after the settings are copied over).
llvm-svn: 113519
are always printed immediately after the command, before optional
options; also so that in the detailed descriptions of each command
option, the options and their help are output in alphabetical order
(sorted by the short option) rather in whatever order they happened to
be in the table.
llvm-svn: 113496
Renamed the "dispatchqaddr" setting that was coming back for stop reply packets
to be named "qaddr" so that gdb doesn't thing it is a register number. gdb
was checking the first character and assuming "di" was a hex register number
because 'd' is a hex digit. It has been shortened so gdb can safely ignore it.
llvm-svn: 113475
Make get/set variable at the debugger level always set the particular debugger's instance variables rather than
the default variables.
llvm-svn: 113474
from scripting applications. An example usage from TestConditionalBreak.py is:
import lldbutil
lldbutil.PrintStackTrace(thread)
./dotest.py -v conditional_break
----------------------------------------------------------------------
Collected 2 tests
test_with_dsym (TestConditionalBreak.ConditionalBreakTestCase)
Exercise some thread and frame APIs to break if c() is called by a(). ... Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`b at main.c:34
frame #2: a.out`a at main.c:25
frame #3: a.out`main at main.c:44
frame #4: a.out`start
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`b at main.c:34
frame #2: a.out`main at main.c:47
frame #3: a.out`start
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`a at main.c:27
frame #2: a.out`main at main.c:50
frame #3: a.out`start
ok
test_with_dwarf (TestConditionalBreak.ConditionalBreakTestCase)
Exercise some thread and frame APIs to break if c() is called by a(). ... Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`b at main.c:34
frame #2: a.out`a at main.c:25
frame #3: a.out`main at main.c:44
frame #4: a.out`start
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`b at main.c:34
frame #2: a.out`main at main.c:47
frame #3: a.out`start
Stack trace for thread id=0x2e03 name=None queue=com.apple.main-thread:
frame #0: a.out`c at main.c:39
frame #1: a.out`a at main.c:27
frame #2: a.out`main at main.c:50
frame #3: a.out`start
ok
----------------------------------------------------------------------
Ran 2 tests in 7.803s
OK
llvm-svn: 113432
with the Clang parser that prevents us from passing
Objective-C types to functions that expect C types.
This quick hack keeps us in business until that
interaction is fixed.
llvm-svn: 113429
certain functions from being resolved correctly.
Some functions (particularly varargs functions)
are BitCast before being called, and the problem
was that a CallInst where getCalledValue()
returned a BitCast ConstantExpr was not being
relocated at all.
This problem should now be resolved for the case
of BitCast.
llvm-svn: 113396
pending instance uses the specified instance name rather than creating a new one; add brackets to instance names
when searching for and removing pending instances.
llvm-svn: 113370
new change will omit unneeded symbol table entries and coalesce
function entries (N_FUN stab entries) with their linker code
symbol (N_SECT symbols) into only the function symbol to avoid
duplicate symbol table entries. It will also coalesce N_STSYM and
the data linker symbol into just one static data symbol.
llvm-svn: 113363
objects and populates them so we can test making expression calls with these
objects. We will need to make this test case more complete as time goes on to
make sure we can evaluate all functions.
llvm-svn: 113314
member variables.
Modified lldb_private::Module to have an accessor that can be used to tell if
a module is a dynamic link editor (dyld) as there are functions in dyld on
darwin that mirror functions in libc (malloc, free, etc) that should not
be used when doing function lookups by name in expressions if there are more
than one match when looking up functions by name.
llvm-svn: 113313
expressions correctly. These produced a result
variable with an initializer but no store
instruction, and the store instruction was as
a result never rewritten to become a store to a
persistent variable.
Now if the result variable has an initializer
but is never used, we generate a (redundant)
store instruction for it, which is then later
rewritten into a (useful) store to the persistent
result variable.
llvm-svn: 113300
symbols with the same name and no debug information.
Also improved the way functions are called so we
don't automatically define them as variadic functions
in the IR.
llvm-svn: 113290
(i.e., leave the value the same, so that a new
stack frame will be linked to the previous
stack) rather than zeroing out RBP.
This fixes calls to dlopen(), for example, which
does a backtrace to see which image is calling
it.
llvm-svn: 113288
symbol tables. Minimal symbol tables enable us to merge two symbols, one
debug symbol and one linker symbol, into a single symbol that can carry
just as much information and will avoid duplicate symbols in the symbol
table.
llvm-svn: 113223
parent, sibling and first child block, and access to the
inline function information.
Added an accessor the StackFrame:
Block * lldb_private::StackFrame::GetFrameBlock();
LLDB represents inline functions as lexical blocks that have
inlined function information in them. The function above allows
us to easily get the top most lexical block that defines a stack
frame. When there are no inline functions in function, the block
returned ends up being the top most block for the function. When
the PC is in an inlined funciton for a frame, this will return the
first parent block that has inlined function information. The
other accessor: StackFrame::GetBlock() will return the deepest block
that matches the frame's PC value. Since most debuggers want to display
all variables in the current frame, the Block returned by
StackFrame::GetFrameBlock can be used to retrieve all variables for
the current frame.
Fixed the lldb_private::Block::DumpStopContext(...) to properly
display inline frames a block should display all of its inlined
functions. Prior to this fix, one of the call sites was being skipped.
This is a separate code path from the current default where inlined
functions get their own frames.
Fixed an issue where a block would always grab variables for any
child inline function blocks.
llvm-svn: 113195
handles user settable internal variables (the equivalent of set/show
variables in gdb). In addition to the basic infrastructure (most of
which is defined in UserSettingsController.{h,cpp}, there are examples
of two classes that have been set up to contain user settable
variables (the Debugger and Process classes). The 'settings' command
has been modified to be a command-subcommand structure, and the 'set',
'show' and 'append' commands have been moved into this sub-commabnd
structure. The old StateVariable class has been completely replaced
by this, and the state variable dictionary has been removed from the
Command Interpreter. Places that formerly accessed the state variable
mechanism have been modified to access the variables in this new
structure instead (checking the term-width; getting/checking the
prompt; etc.)
Variables are attached to classes; there are two basic "flavors" of
variables that can be set: "global" variables (static/class-wide), and
"instance" variables (one per instance of the class). The whole thing
has been set up so that any global or instance variable can be set at
any time (e.g. on start up, in your .lldbinit file), whether or not
any instances actually exist (there's a whole pending and default
values mechanism to help deal with that).
llvm-svn: 113041
execution context only when the process is still alive. When running the test
suite, the debugger is launching and killing processes constantly.
This might be the cause of the test hang as reported in rdar://problem/8377854,
where the debugger was looping infinitely trying to update a supposedly stale
thread list.
llvm-svn: 113022
Added extra logging for stepping.
Fixed an issue where cached stack frame data could be lost between runs when
the thread plans read a stack frame.
llvm-svn: 112973