ptr_refs command frequently doesn't work when run in large applicaton. This was due to the default timeout of 500ms. The timeouts have now been increased and all expression evaluations have been modified.
llvm-svn: 178628
C++11 lambdas that don't capture anything can be used as static callback functions!
Heavily modified this python module to be able to not require a dylib in order to traverse the heap allocations.
Re-implemented the ptr_refs, objc_refs, malloc_info and cstr_refs to use complex expressions that use lambdas to do all static callback function work.
llvm-svn: 173989
Fixed an issue where not all text would always be seen when running any of the functions in heap.py in Xcode. Now we put the text directly into the command result object and skip STDIO since we have issues with STDIO right now in python scripts.
Also fixed an issue with the "--stack-history" option where MallocStackLoggingNoCompact was assumed to have to be enabled... It doesn't, just MallocStackLogging.
llvm-svn: 163042
Modified the heap.py to be able to correctly indentify the exact ivar for the "ptr_refs" command no matter how deep the ivar is in a class hierarchy. Also fixed the ability for the heap command to symbolicate the stack backtrace when MallocStackLogging is set in the environment and the "--stack" option was specified.
llvm-svn: 159883
Cleaned up the lldb.utils.symbolication, lldb.macosx.heap and lldb.macosx.crashlog. The lldb.macosx.heap can now build a dylib for the current triple into a temp directory and use it from there.
llvm-svn: 155577
(lldb) command script import heap.py
Find all malloc blocks that contains a pointer value of 0x1234000:
(lldb) ptr_refs 0x1234000
Find all malloc blocks that contain a C string:
(lldb) cstr_refs "hello"
Get info on a malloc block that starts at or contains 0x12340000
(lldb) malloc_info 0x12340000
llvm-svn: 154602
First we can load the module:
(lldb) command script import /Volumes/work/gclayton/Documents/src/lldb/examples/darwin/heap_find/heap.py
Loading "/Volumes/work/gclayton/Documents/src/lldb/examples/darwin/heap_find/libheap.dylib"...ok
Image 0 loaded.
"heap_ptr_refs" and "heap_cstr_refs" commands have been installed, use the "--help" options on these commands for detailed help.
Lets take a look at the variable "my":
(lldb) fr var *my
(MyString) *my = {
MyBase = {
NSObject = {
isa = MyString
}
propertyMovesThings = 0
}
str = 0x0000000100301a60
date = 0x0000000100301e60
_desc_pauses = NO
}
We can see that this contains an ivar "str" which has a pointer value of "0x0000000100301a60". Lets search the heap for this pointer and see what we find:
(lldb) heap_ptr_refs 0x0000000100301a60
found pointer 0x0000000100301a60: block = 0x103800270, size = 384, offset = 168, type = 'void *'
found pointer 0x0000000100301a60: block = 0x100301cf0, size = 48, offset = 16, type = 'MyString *', ivar = 'str'
(MyString) *addr = {
MyBase = {
NSObject = {
isa = MyString
}
propertyMovesThings = 0
}
str = 0x0000000100301a60
date = 0x0000000100301e60
_desc_pauses = NO
}
found pointer 0x0000000100301a60: block = 0x100820000, size = 4096, offset = 96, type = (autorelease object pool)
found pointer 0x0000000100301a60: block = 0x100820000, size = 4096, offset = 104, type = (autorelease object pool)
Note that it used dynamic type info to find that it was in "MyString" at offset 16 and it also found the ivar "str"!
We can also look for C string values on the heap. Lets look for "a.out":
(lldb) heap_cstr_refs "a.out"
found cstr a.out: block = 0x10010ce00, size = 96, offset = 85, type = '__NSCFString *'
found cstr a.out: block = 0x100112d90, size = 80, offset = 68, type = 'void *'
found cstr a.out: block = 0x100114490, size = 96, offset = 85, type = '__NSCFString *'
found cstr a.out: block = 0x100114530, size = 112, offset = 97, type = '__NSCFString *'
found cstr a.out: block = 0x100114e40, size = 32, offset = 17, type = '__NSCFString *'
found cstr a.out: block = 0x100114fa0, size = 32, offset = 17, type = '__NSCFString *'
found cstr a.out: block = 0x100300780, size = 160, offset = 128, type = '__NSCFData *'
found cstr a.out: block = 0x100301a60, size = 112, offset = 97, type = '__NSCFString *'
found cstr a.out: block = 0x100821000, size = 4096, offset = 100, type = 'void *'
We see we have some objective C classes that contain this, so lets "po" all of the results by adding the --po option:
(lldb) heap_cstr_refs a.out --po
found cstr a.out: block = 0x10010ce00, size = 96, offset = 85, type = '__NSCFString *'
(__NSCFString *) 0x10010ce00 /Volumes/work/gclayton/Documents/src/lldb/test/lang/objc/foundation/a.out
found cstr a.out: block = 0x100112d90, size = 80, offset = 68, type = 'void *'
found cstr a.out: block = 0x100114490, size = 96, offset = 85, type = '__NSCFString *'
(__NSCFString *) 0x100114490 /Volumes/work/gclayton/Documents/src/lldb/test/lang/objc/foundation/a.out
found cstr a.out: block = 0x100114530, size = 112, offset = 97, type = '__NSCFString *'
(__NSCFString *) 0x100114530 Hello from '/Volumes/work/gclayton/Documents/src/lldb/test/lang/objc/foundation/a.out'
found cstr a.out: block = 0x100114e40, size = 32, offset = 17, type = '__NSCFString *'
(__NSCFString *) 0x100114e40 a.out.dSYM
found cstr a.out: block = 0x100114fa0, size = 32, offset = 17, type = '__NSCFString *'
(__NSCFString *) 0x100114fa0 a.out
found cstr a.out: block = 0x100300780, size = 160, offset = 128, type = '__NSCFData *'
(__NSCFData *) 0x100300780 <48656c6c 6f206672 6f6d2027 2f566f6c 756d6573 2f776f72 6b2f6763 6c617974 6f6e2f44 6f63756d 656e7473 2f737263 2f6c6c64 622f7465 73742f6c 616e672f 6f626a63 2f666f75 6e646174 696f6e2f 612e6f75 742700>
found cstr a.out: block = 0x100301a60, size = 112, offset = 97, type = '__NSCFString *'
(__NSCFString *) 0x100301a60 Hello from '/Volumes/work/gclayton/Documents/src/lldb/test/lang/objc/foundation/a.out'
found cstr a.out: block = 0x100821000, size = 4096, offset = 100, type = 'void *'
llvm-svn: 154519
I started work on being able to add symbol files after a debug session
had started with a new "target symfile add" command and quickly ran into
problems with stale Address objects in breakpoint locations that had
lldb_private::Section pointers into modules that had been removed or
replaced. This also let to grabbing stale modules from those sections.
So I needed to thread harded the Address, Section and related objects.
To do this I modified the ModuleChild class to now require a ModuleSP
on initialization so that a weak reference can created. I also changed
all places that were handing out "Section *" to have them hand out SectionSP.
All ObjectFile, SymbolFile and SymbolVendors were inheriting from ModuleChild
so all of the find plug-in, static creation function and constructors now
require ModuleSP references instead of Module *.
Address objects now have weak references to their sections which can
safely go stale when a module gets destructed.
This checkin doesn't complete the "target symfile add" command, but it
does get us a lot clioser to being able to do such things without a high
risk of crashing or memory corruption.
llvm-svn: 151336
to find data on the heap. To use this, make the project and then when stopped in your
lldb debug session:
(lldb) process load /path/to/libheap.dylib
(lldb) find_pointer_in_heap (0x112233000000)
This will grep everything in all active allocation blocks and print and malloc blocks that contain the pointer 0x112233000000.
This can also work for c strings:
(lldb) find_cstring_in_heap ("hello")
llvm-svn: 148523