First, get your tombstone stack trace, it will be printed every time your app crashes. Something like this:
*** *** *** *** *** *** *** *** *** *** *** *** *** *** *** ***
Build fingerprint: 'XXXXXXXXX'
pid: 1658, tid: 13086 >>> system_server <<<
signal 11 (SIGSEGV), code 1 (SEGV_MAPERR), fault addr 64696f7e
r0 00000000 r1 00000001 r2 ad12d1e8 r3 7373654d
r4 64696f72 r5 00000406 r6 00974130 r7 40d14008
r8 4b857b88 r9 4685adb4 10 00974130 fp 4b857ed8
ip 00000000 sp 4b857b50 lr afd11108 pc ad115ebc cpsr 20000030
d0 4040000040000000 d1 0000004200000003
d2 4e72cd924285e370 d3 00e81fe04b1b64d8
d4 3fbc71c7009b64d8 d5 3fe999999999999a
d6 4010000000000000 d7 4000000000000000
d8 4000000000000000 d9 0000000000000000
d10 0000000000000000 d11 0000000000000000
d12 0000000000000000 d13 0000000000000000
d14 0000000000000000 d15 0000000000000000
scr 80000012
#00 pc 000108d8 /system/lib/libc.so
#01 pc 0003724c /system/lib/libxvi020.so
#02 pc 0000ce02 /system/lib/libxvi020.so
#03 pc 0000d672 /system/lib/libxvi020.so
#04 pc 00010cce /system/lib/libxvi020.so
#05 pc 00004432 /system/lib/libwimax_jni.so
#06 pc 00011e74 /system/lib/libdvm.so
#07 pc 0004354a /system/lib/libdvm.so
#08 pc 00017088 /system/lib/libdvm.so
#09 pc 0001c210 /system/lib/libdvm.so
#10 pc 0001b0f8 /system/lib/libdvm.so
#11 pc 00059c24 /system/lib/libdvm.so
#12 pc 00059e3c /system/lib/libdvm.so
#13 pc 0004e19e /system/lib/libdvm.so
#14 pc 00011b94 /system/lib/libc.so
#15 pc 0001173c /system/lib/libc.so
code around pc:
ad115e9c 4620eddc bf00bd70 0001736e 0001734e
ad115eac 4605b570 447c4c0a f7f44620 e006edc8
ad115ebc 42ab68e3 68a0d103 f7f42122 6864edd2
ad115ecc d1f52c00 44784803 edbef7f4 bf00bd70
ad115edc 00017332 00017312 2100b51f 46682210
code around lr:
afd110e8 e2166903 1a000018 e5945000 e1a02004
afd110f8 e2055a02 e1a00005 e3851001 ebffed92
afd11108 e3500000 13856002 1a000001 ea000009
afd11118 ebfffe50 e1a01004 e1a00006 ebffed92
afd11128 e1a01005 e1550000 e1a02006 e3a03000
stack:
4b857b10 40e43be8
4b857b14 00857280
4b857b18 00000000
4b857b1c 034e8968
4b857b20 ad118ce9 /system/lib/libnativehelper.so
4b857b24 00000002
4b857b28 00000406
Then, use the addr2line
utility (find it in your NDK tool-chain) to find the function that crashes. In this sample, you do
addr2line -e -f libc.so 0001173c
And you will see where you got the problem. Of course this wont help you since it is in libc.
So you might combine the utilities of arm-eabi-objdump
to find the final target.
Believe me, it is a tough task.
Just for an update. I think I was doing Android native build from the whole-source-tree for quite a long time, until today I have myself carefully read the NDK documents. Ever since the release NDK-r6, it has provided a utility called ndk-stack
.
Following is the content from official NDK documents with the NDK-r9 tar ball.
Overview:
ndk-stack
is a simple tool that allows you to filter stack traces as they appear in the output of 'adb logcat' and replace any address inside a shared library with the corresponding : values.
In a nutshell, it will translate something like:
I/DEBUG ( 31): *** *** *** *** *** *** *** *** *** *** *** *** *** *** *** ***
I/DEBUG ( 31): Build fingerprint: 'generic/google_sdk/generic/:2.2/FRF91/43546:eng/test-keys'
I/DEBUG ( 31): pid: 351, tid: 351 %gt;%gt;%gt; /data/local/ndk-tests/crasher <<<
I/DEBUG ( 31): signal 11 (SIGSEGV), fault addr 0d9f00d8
I/DEBUG ( 31): r0 0000af88 r1 0000a008 r2 baadf00d r3 0d9f00d8
I/DEBUG ( 31): r4 00000004 r5 0000a008 r6 0000af88 r7 00013c44
I/DEBUG ( 31): r8 00000000 r9 00000000 10 00000000 fp 00000000
I/DEBUG ( 31): ip 0000959c sp be956cc8 lr 00008403 pc 0000841e cpsr 60000030
I/DEBUG ( 31): #00 pc 0000841e /data/local/ndk-tests/crasher
I/DEBUG ( 31): #01 pc 000083fe /data/local/ndk-tests/crasher
I/DEBUG ( 31): #02 pc 000083f6 /data/local/ndk-tests/crasher
I/DEBUG ( 31): #03 pc 000191ac /system/lib/libc.so
I/DEBUG ( 31): #04 pc 000083ea /data/local/ndk-tests/crasher
I/DEBUG ( 31): #05 pc 00008458 /data/local/ndk-tests/crasher
I/DEBUG ( 31): #06 pc 0000d362 /system/lib/libc.so
I/DEBUG ( 31):
Into the more readable output:
********** Crash dump: **********
Build fingerprint: 'generic/google_sdk/generic/:2.2/FRF91/43546:eng/test-keys'
pid: 351, tid: 351 >>> /data/local/ndk-tests/crasher <<<
signal 11 (SIGSEGV), fault addr 0d9f00d8
Stack frame #00 pc 0000841e /data/local/ndk-tests/crasher : Routine zoo in /tmp/foo/crasher/jni/zoo.c:13
Stack frame #01 pc 000083fe /data/local/ndk-tests/crasher : Routine bar in /tmp/foo/crasher/jni/bar.c:5
Stack frame #02 pc 000083f6 /data/local/ndk-tests/crasher : Routine my_comparison in /tmp/foo/crasher/jni/foo.c:9
Stack frame #03 pc 000191ac /system/lib/libc.so
Stack frame #04 pc 000083ea /data/local/ndk-tests/crasher : Routine foo in /tmp/foo/crasher/jni/foo.c:14
Stack frame #05 pc 00008458 /data/local/ndk-tests/crasher : Routine main in /tmp/foo/crasher/jni/main.c:19
Stack frame #06 pc 0000d362 /system/lib/libc.so
Usage:
To do this, you will first need a directory containing symbolic versions of your application's shared libraries. If you use the NDK build system (i.e. ndk-build
), then these are always located under $PROJECT_PATH/obj/local/, where stands for your device's ABI (i.e. armeabi
by default).
You can feed the logcat
text either as direct input to the program, e.g.:
adb logcat | $NDK/ndk-stack -sym $PROJECT_PATH/obj/local/armeabi
Or you can use the -dump option to specify the logcat as an input file, e.g.:
adb logcat > /tmp/foo.txt
$NDK/ndk-stack -sym $PROJECT_PATH/obj/local/armeabi -dump foo.txt
IMPORTANT :
The tool looks for the initial line containing starts in the logcat
output, i.e. something that looks like:
*** *** *** *** *** *** *** *** *** *** *** *** *** *** *** ***
When copy/pasting traces, don't forget this line from the traces, or ndk-stack
won't work correctly.
TODO:
A future version of ndk-stack
will try to launch adb logcat
and select the library path automatically. For now, you'll have to do these steps manually.
As of now, ndk-stack
doesn't handle libraries that don't have debug information in them. It may be useful to try to detect the nearest function entry point to a given PC address (e.g. as in the libc.so example above).
OK! I'm really sorry to those that have actually submitted comments and answers, but I found the problem. I don't think this will help a lot of others trying to track down their personal SIGSEGV, but mine (and it was very hard) was entirely related to this:
https://code.google.com/p/android/issues/detail?id=8709
The libcrypto.so in my dump kind of clued me in. I do a MD5 hash of packet data when trying to determine if I've already seen the packet, and skipping it if I had. I thought at one point this was an ugly threading issue related to tracking those hashes, but it turned out it was the java.security.MessageDigest class! It's not thread safe!
I swapped it out with a UID I was stuffing in every packet based on the device UUID and a timestamp. No problems since.
I guess the lesson I can impart to those that were in my situation is, even if you're a 100% Java application, pay attention to the native library and symbol noted in the crash dump for clues. Googling for SIGSEGV + the lib .so name will go a lot farther than the useless code=1, etc... Next think about where your Java app could touch native code, even if it's nothing you're doing. I made the mistake of assuming it was a Service + UI threading issue where the Canvas was drawing something that was null, (the most common case I Googled on SIGSEGV) and ignored the possibility it could have been completely related to code I wrote that was related to the lib .so in the crash dump. Naturally java.security would use a native component in libcrypto.so for speed, so once I clued in, I Googled for Android + SIGSEGV + libcrypto.so and found the documented issue. Good luck!
I was getting this error by saving an object to the shared preferences as a gson converted string. The gson String was no good, so retrieving and deserializing the object was not actually working correctly. This meant any subsequent accesses to the object resulted in this error. Scary :)
I also got this error many times and I solved it. This error will be faced in case of memory management in native side.
Your application is accessing memory outside of its address space. This is most likely an invalid pointer access. SIGSEGV = segmentation fault in native code. Since it is not occurring in Java code you won't see a stack trace with details. However, you may still see some stack trace information in the logcat if you look around a bit after the application process crashes. It will not tell you the line number within the file, but will tell you which object files and addresses were in use in the call chain. From there you can often figure out which area of the code is problematic. You can also setup a gdb native connection to the target process and catch it in the debugger.
Today I faced Fatal signal 11 (SIGSEGV), code 1, fault addr 0x8 in tid 18161
issue and I struggle half day to solve this.
I tried many things clearing cache and deleting .gradle file and all.
Finally I disable Instant Run
and now I am not getting this issue again.
Now my application is working after enabling instant run also. It may be the instant run problem, Try with disabling and enabling instant run
From this answer:
Go to Android Studio Settings or Preferences (for MAC) -> Build,Execution,Deployment -> Instant Run.
Then deselect the "Enable Instant Run" checkbox at the top.
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