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I received a crash report via that isn't symbolicated. Since the crash report is not in exactly the same format as an Apple crashlog I can't just drop it on XCode as usual, so I took the exact same build from my XCode archive tried to symbolicate it on the commandline. With the following result:

$ atos -o 0x0002fc4c
0x0002fc4c (in kidsapp)

I'm absolutely sure I'm using the same build as the crash report is from. So I also tried with dwarfdump:

$ dwarfdump --lookup 0x0002fc4c --arch armv7
 File: (armv7)
Looking up address: 0x000000000002fc4c in .debug_info... not found.
Looking up address: 0x000000000002fc4c in .debug_frame... not found.

Also no result. Is there anything else besides using the wrong dSYM file that I could do wrong? I know it's the correct one since this is the version referred in the crash report in AirBrake and it's in my XCode archive.

Any ideas/tips are welcome!

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4 Answers 4

up vote 9 down vote accepted

First of all check if the dSYM is really the correct one for that app:

dwarfdump --uuid
dwarfdump --uuid

Both should return the same result.

Next check if the dSYM has any valid content

dwarfdump --all

This should give at least some info, other than not found.

I guess that the dSYM is corrupt. In general you might want to use a crash reporter that gives you a full crash report with all threads and last exception backtrace information. I recommend using something based on PLCrashReporter, e.g. QuincyKit (Open Source SDK + Server + symbolication on your mac) or HockeyApp (Open Source SDK + Paid service + server side symbolication) (Note: I am one of the developers both!)

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I'm having the same issue. I have a crash reported that provides the stack trace but none of the symbols from my project that end up in the stack can be found in my archive's dSYM. The UUIDs match but the symbols are all off. How is this possible and how can I resolve this? Does apple modify the binary somehow before releasing to the app store thus corrupting the alignment with my dSYM? –  NSProgrammer Sep 17 '12 at 17:45
You'll have to take the slide of the binary and the start address of the app into account. You can't just use the memory address from the stack trace. Just use the symbolicatecrash script from Xcode which does all of what you'll need. –  Kerni Sep 17 '12 at 17:52
But if all i have are the symbols (I should have said stack dump, not trace) which purely gives me hex values how do I take the "slide" into account? –  NSProgrammer Sep 17 '12 at 17:55
address for using with atos = slide + stack address - binary load address. You get the slide with dwarfdump from the dsym or binary, check how the symbolicatecrash script does it. binary load address you get from the binary images section in the crash report. –  Kerni Sep 18 '12 at 0:39
I answered to my specific subproblem. –  NSProgrammer Sep 18 '12 at 4:46

I used the following arithmetic to figure it out:

slide + stack address - load address = symbol address


stack address is the hex value I get from my stack dump crash report (not a .crash file, just the stack dump).


slide is the vmaddr of the LC_SEGMENT cmd when running otool -arch armv7 -l APP_BINARY_PATH. Mine usually ends up being 0x00001000.


load address is the complicated piece. It is actually the difference between the bottommost stack address of the main thread and the FIRST address of the portion of my binary that contains symbols when running dwarfdump --arch armv7 --all DSYM_BINARY_PATH. This is simply the symbolic address of the main function. So if your bottom most crash address is 0x8000 and your main function's symbolic address is 0x2000 then your load address is 0x6000.

Now with ALL these pieces I can calculate the symbol address and put that into atos or dwarfdump: dwarfdump --lookup SYM_ADDR --arch armv7 APP_BINARY_PATH.

Example of the dump (you can see that the load address was 0x00003af4):


File: /Users/user/Desktop/MyApp.xcarchive/dSYMs/ (armv7)


0x00000024: [0x00003af4 - 0x00003b4e) main

0x00000098: [0x00003b50 - 0x00003d8c) -[MyAppDelegate application: didFinishLaunchingWithOptions:]

... the rest of the dump

The hardest part was realizing that one of the 2 static libraries I'd included had their symbols stripped before being link to my app's binary! That left a HUGE gap of symbol addresses so I only ended up with two-thirds of the symbols I needed in my dSYM.

Be sure to have the following flags set to NO in your static libraries xcode project so that when you link against it, you can pull in the symbols to your app's binary (which can later be stripped): COPY_PHASE_STRIP, DEAD_CODE_STRIPPING, and STRIP_INSTALLED_PRODUCT.

Now you may ask, "what do I do if the stack dump does not include the main function since it isn't on the main thread so that I cannot get the main function's stack address?". To that I would reply, "I haven't a friggin' clue!". Just cross your fingers and hope you can get a stack trace that includes the symbol address or use a crash reporting system that mimics Apple's crash logs, like PLCrashReporter.

[EDIT May 26, 2013] -

It was brought to my attention that the load address is really the address of the mach-o binary. Though what I described above can often work - it's not actually correct. This can be obtained via the CRASH REPORT, however the point of this answer was to provide the symbols of a crash when you don't have a crash report. The best way I've come to figuring out the load address when wanting to symbolicate is by making sure I log the load address with the stack addresses.

I've personally created a system for logging crashes (not crash reports) and having them sent to an S3 bucket where I can retrieve them later for debugging. When I start my application I cache the slide, the load address and the main function address for use if my app crashes and I send up a the stack addresses.

NOTE: the dyld functions use #include <mach-o/dyld.h>

slide = the address returned by _dyld_get_image_vmaddr_slide(0)

load address = the address returned by _dyld_get_image_header(0)

main function address = the last address in [NSThread callStackReturnAddresses] when called on the main thread

At crash time I'm sure to log [NSThread callStackReturnAddresses] and [NSThread callStackSymbols] as well as the architecture which can be retrieve by having this method:

- (NSString*) arch
    NSString* arch =
#ifdef _ARM_ARCH_7
#elif defined (_ARM_ARCH_6)

    return arch;

I don't yet know how to differentiate between armv7 and armv7s though.

So this may help in the future. I plan on taking everything I've learned and turning this into a simple crash tool - better than the natos tool (probably natos v2).

I've updated natos to support supplying the load address manually:

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I've created a command line tool to do all the hard work. Simply need 1) the xcarchive path, 2) the stack address symbol of the main function, 3) the stack address of the desired symbol, 4) the architecture of interest. It's located on github: –  NSProgrammer Sep 30 '12 at 0:43
Nice writeup, but sadly there is a major mistake in it: the load address is NOT what you wrote. The load address can be found in the binary images section of the crash report and is the start address of the address range of the corresponding binary. –  Kerni Nov 21 '12 at 0:36
I used your tools, but how can I get the _mainFunctionStackAddress? I find an address by dwarfdump my dsym file and used it, but the result he gives me was the same with the atos explained, I still can't find the right position of the crash point. –  Zhou Nov 27 '12 at 13:12
Revised to address @Kemi. –  NSProgrammer May 26 '13 at 20:59
@Zhou, the tool has been updated to accept just the load address instead of calculating based on the main function stack address. –  NSProgrammer May 26 '13 at 21:01

I think this post may help you, Joe's commit soled my problem.

The reason is that my .app and .dSYM files can't be indexed by spotlight, so my XCode can't symbolicate the crash info correctly.

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For whom that certain times doesn't have the value for Load Address like this:

Jan 14 11:02:39 Dennins-iPhone AppName[584] <Critical>: Stack Trace: (
    0   CoreFoundation                      0x2c3084b7 <redacted> + 150
    1   libobjc.A.dylib                     0x39abec8b objc_exception_throw + 38
    2   CoreFoundation                      0x2c21cc35 CFRunLoopRemoveTimer + 0
    3   AppName                             0x0005a7db AppName + 272347  

I've created a simple bash to help me debug:

#! /bin/bash
read -p "[Path] [App Name] [Stack Address] [Relative Address] " path appName runtimeAddress relativeAddress
loadAddress=`echo "obase=16;ibase=10;$((runtimeAddress-relativeAddress))" | bc`
atos -o $path/Payload/$$appName -l $loadAddress $runtimeAddress -arch armv7

It just reads the path for the app, the app name, the runtime address, and the value after "+" signal (the decimal value) and then find the value for load address to run atos command.

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