I am working on debugging a crash in the native C library part of our application, which is called from the Java side through JNI.
I've found this part of the crash file that Java left for me:
# JRE version: 6.0_16-b01 # Java VM: Java HotSpot(TM) 64-Bit Server VM (14.2-b01 mixed mode linux-amd64 ) # Problematic frame: # C [binaryname.so+0x2760] functionname+0x59
I've decompiled this:
[richg@SVR-LRH-ES-2A]$ gdb binaryname.so ... (gdb) disas 0x275e 0x2768 Dump of assembler code from 0x275e to 0x2768: 0x000000000000275e <functionname+87>: rex.RB clc 0x0000000000002760 <functionname+89>: movzbl 0x230(%rax),%eax 0x0000000000002767 <functionname+96>: test %al,%al
Looking at my stack trace, again, and the register section, I can see:
RAX=0xffffffffffffffff, RBX=0x00002aab6cdf46c8, RCX=0x00002b70e0f15d73, RDX=0x000000005d5ffbe0 RSP=0x00000000463f9710, RBP=0x00000000463f9770, RSI=0x00002b70e0f27820, RDI=0x00000000463f9748 R8 =0x00002b70e0f27838, R9 =0x000000005cfa9828, R10=0x000000005cfa9478, R11=0x000000005cfa9440 R12=0x00002aab84654000, R13=0x00002aab6cdf46c8, R14=0x00000000463f9808, R15=0x00002aab84654000 RIP=0x00002aab79316760, EFL=0x0000000000010206, CSGSFS=0x0000000000000033, ERR=0x0000000000000004 TRAPNO=0x000000000000000e
So %rax is 0xffffffffffffffff. That look suspicious to me.
I exhausted my knowledge of x86 some time ago, though. I've done some reading about movz and I understand what it does (casts from an 8 bit integer up to a 32-bit one by padding the low 24 bits with zeros), but I still have questions:
1) What's the significance of the 0x230 part in the call? I can see other uses of movzbl in the code which have different numbers in there.
2) Am I right in thinking that if the input register has a value larger than 8 bits (which %rax does, here), then this will crash with an overflow? (Which will be the root cause of my crash, if so.)
3) Why isn't %eax in the register dump Java has given me?