Topic: Crashes on Gentoo/Alpha (Read 3351 times)

tcort · « **on:** June 19, 2006, 03:33:22 AM »

$ amule
Initialising aMule
Checking if there is an instance already running...
No other instances are running.

--------------------------------------------------------------------------------
A fatal error has occurred and aMule has crashed.
Please assist us in fixing this problem by posting the backtrace below
in our
'aMule Crashes' forum and include as much information as possible
regarding the
circumstances of this crash. The forum is located here:
http://forum.amule.org/board.php?boardid=67
If possible, please try to generate a real backtrace of this crash:
http://www.amule.org/wiki/index.php/Backtraces

----------------------------=| BACKTRACE FOLLOWS:
|=----------------------------
Current version is: aMule 2.1.3 using wxGTK2 v2.6.3 (Unicoded)
Running on: Linux 2.6.16.5 alpha

[2] CamuleApp::OnFatalException() in :0
[3] wxFatalSignalHandler in /usr/lib/libwx_baseu-2.6.so.0[0x200008c6528]
[4] ?? in /lib/libpthread.so.0 [0x20000056300]
[5] __pthread_mutex_lock in /lib/libpthread.so.0[0x2000004f2e4]
[6] wxMutexInternal::Lock() in
/usr/lib/libwx_baseu-2.6.so.0[0x200008b7a58]

--------------------------------------------------------------------------------
Aborted

(gdb) run
Starting program: /usr/bin/amule
[Thread debugging using libthread_db enabled]
[New Thread 2199049279936 (LWP 1735)]
Initialising aMule
Checking if there is an instance already running...
No other instances are running.

Program received signal SIGSEGV, Segmentation fault.
[Switching to Thread 2199049279936 (LWP 1735)]
0x000002000004f2e4 in pthread_mutex_lock () from /lib/libpthread.so.0
(gdb) bt full
#0 0x000002000004f2e4 in pthread_mutex_lock () from
/lib/libpthread.so.0
No symbol table info available.
#1 0x00000200008b7a58 in wxMutexInternal::Lock ()
from /usr/lib/libwx_baseu-2.6.so.0
No symbol table info available.
#2 0x00000200008b7af8 in wxMutex::Lock () from
/usr/lib/libwx_baseu-2.6.so.0
No symbol table info available.
#3 0x00000200008b9bec in wxThread::Delete ()
from /usr/lib/libwx_baseu-2.6.so.0
No symbol table info available.
#4 0x000000012026be10 in CTimer::Stop ()
No symbol table info available.
#5 0x000000012026bed4 in CTimer::Start ()
No symbol table info available.
#6 0x0000000120212920 in Cfg_Counter::LoadFromFile ()
No symbol table info available.
#7 0x0000000120204d54 in CPreferences::LoadAllItems ()
No symbol table info available.
#8 0x0000000120069b0c in CamuleApp::OnInit ()
No symbol table info available.
#9 0x0000000120155df8 in CamuleGuiApp::OnInit ()
No symbol table info available.
#10 0x00000001200707ec in wxAppConsole::CallOnInit ()
No symbol table info available.
#11 0x00000200008343a0 in wxEntry () from /usr/lib/libwx_baseu-2.6.so.0
No symbol table info available.
#12 0x0000020000834574 in wxEntry () from /usr/lib/libwx_baseu-2.6.so.0
No symbol table info available.
#13 0x0000000120154b20 in main ()
No symbol table info available.

Kry · « **Reply #1 on:** June 19, 2006, 01:52:43 PM »

Can you recompile with debug?

tcort · « **Reply #2 on:** July 02, 2006, 05:13:28 PM »

GNU gdb 6.4
Copyright 2005 Free Software Foundation, Inc.
GDB is free software, covered by the GNU General Public License, and you are
welcome to change it and/or distribute copies of it under certain conditions.
Type "show copying" to see the conditions.
There is absolutely no warranty for GDB. Type "show warranty" for details.
This GDB was configured as "alpha-unknown-linux-gnu"...Using host libthread_db library "/lib/libthread_db.so.1".

(gdb) run
Starting program: /usr/bin/amule
[Thread debugging using libthread_db enabled]
[New Thread 2199048668432 (LWP 14254)]

Program received signal SIGILL, Illegal instruction.
[Switching to Thread 2199048668432 (LWP 14254)]
0x00000001204a71dc in vtable for CColorFrameCtrl ()
(gdb) bt full
#0 0x00000001204a71dc in vtable for CColorFrameCtrl ()
No symbol table info available.
#1 0x000000012039c0b8 in CryptoPP::AbstractGroup::SimultaneousMultiply (
this=0x11fa8ff28, results=0x11fa90130, base=@0x11fa8ffd0, expBegin=0x11fa90170,
expCount=531168784) at CryptoPP.cpp:5591
   buckets = {<__gnu_norm::vector<__gnu_debug_def::vector >,std::allocator<__gnu_debug_def::vector > > >> = {<__gnu_norm::_Vector_base<__gnu_debug_def::vector >,std::allocator<__gnu_debug_def::vector > > >> = {
_M_impl = { > >> = {<__gnu_cxx::new_allocator<__gnu_debug_def::vector > >> = {}, },
_M_start = 0x120969160, _M_finish = 0x120969198,
_M_end_of_storage = 0x120969198}}, }, <__gnu_debug::_Safe_sequence<__gnu_debug_def::vector<__gnu_debug_def::vector >, std::allocator<__gnu_debug_def::vector > > > >> = {<__gnu_debug::_Safe_sequence_base> = {_M_iterators = 0x0,
_M_const_iterators = 0x0, _M_version = 1}, },
_M_guaranteed_capacity = 1}
   i = 0
   g = { = {_vptr$ASN1Object = 0x1200b2dc4}, reg = {
m_alloc = {> = {}, }, m_size = 1, m_ptr = 0x1200b2e0c}, sign = CryptoPP::Integer::POSITIVE}
   notDone = 112
   exponents = {<__gnu_norm::vector >> = {<__gnu_norm::_Vector_base >> = {
_M_impl = {> = {<__gnu_cxx::new_allocator> = {}, }, _M_start = 0x120969260,
_M_finish = 0x120969260,
_M_end_of_storage = 0x1209692b0}}, }, <__gnu_debug::_Safe_sequence<__gnu_debug_def::vector > >> = {<__gnu_debug::_Safe_sequence_base> = {_M_iterators = 0x0, _M_const_iterators = 0x0,
_M_version = 2}, }, _M_guaranteed_capacity = 1}
   expBitPosition = 540551012
   __PRETTY_FUNCTION__ = "void CryptoPP::AbstractGroup::SimultaneousMultiply(T*, const T&, const CryptoPP::Integer*, unsigned int) const [with T = CryptoPP::Integer]"
#2 0x000000012039c7a0 in CryptoPP::AbstractRing::SimultaneousExponentiate
(this=0x11fa8fe20, results=0x11fa90130, base=@0x11fa8ffd0, exponents=0x11fa90150,
expCount=1) at CryptoPP.cpp:5656
No locals.
#3 0x000000012039c7e8 in CryptoPP::MontgomeryRepresentation::SimultaneousExponentiate (
this=0x11fa8fe20, results=0x11fa90150, base=@0x0, exponents=0x0, exponentsCount=1)
at CryptoPP.h:3739
No locals.
#4 0x000000012036e870 in CryptoPP::ModularArithmetic::SimultaneousExponentiate (
this=0x11fa8ffd0, results=0x11fa90130, base=@0x11fa901d0, exponents=0x11fa90150,
exponentsCount=1) at CryptoPP.cpp:5297
   dr = { = {> = {> = {_vptr$AbstractGroup = 0x120471a38},
m_mg = {> = {
_vptr$AbstractGroup = 0x12047b1f8}, m_pRing = 0x11fa8ff20}},
static DefaultRandomizationParameter = ,
modulus = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120969020}, sign = CryptoPP::Integer::POSITIVE},
result = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120969050}, sign = CryptoPP::Integer::POSITIVE},
result1 = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120968eb0}, sign = CryptoPP::Integer::POSITIVE}},
u = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120969080}, sign = CryptoPP::Integer::POSITIVE}, workspace = {
m_alloc = {> = {}, }, m_size = 20, m_ptr = 0x1209690b0}}
#5 0x000000012037fb70 in CryptoPP::AbstractRing::Exponentiate (
this=0x11fa90040, base=@0x11fa901d0, exponent=@0x11fa90150) at CryptoPP.cpp:5644
   result = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120968ed0}, sign = CryptoPP::Integer::POSITIVE}
#6 0x0000000120357a98 in CryptoPP::a_exp_b_mod_c (x=@0x11fa901d0, e=@0x11fa90150, m=@0x0)
at CryptoPP.cpp:5095
   mr = {> = {> = {_vptr$AbstractGroup = 0x120471898},
m_mg = {> = {
_vptr$AbstractGroup = 0x12047b1f8}, m_pRing = 0x11fa90040}},
static DefaultRandomizationParameter = ,
modulus = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120968f10}, sign = CryptoPP::Integer::POSITIVE},
result = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120968ff0}, sign = CryptoPP::Integer::POSITIVE},
result1 = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120968f80}, sign = CryptoPP::Integer::POSITIVE}}
#7 0x000000012035ce70 in CryptoPP::IsStrongProbablePrime (n=@0x11fa90dd8, b=@0x11fa901d0)
at CryptoPP.cpp:1162
   nminus1 = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120968e80}, sign = CryptoPP::Integer::POSITIVE}
   a = 1
   m = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120968fc0}, sign = CryptoPP::Integer::POSITIVE}
   z = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120968ed0}, sign = CryptoPP::Integer::POSITIVE}
   __PRETTY_FUNCTION__ = "bool CryptoPP::IsStrongProbablePrime(const CryptoPP::Integer&, const CryptoPP::Integer&)"
#8 0x000000012035d194 in FastProbablePrimeTest (n=@0x11fa90dd8) at CryptoPP.cpp:1273
No locals.
#9 0x000000012036c4e8 in CryptoPP::FirstPrime (p=@0x11fa90dd8, max=@0x11fa90860,
equiv=@0x11fa90520, mod=@0x11fa904a0, pSelector=0x11fa90990) at CryptoPP.cpp:1446
   pItr = (const word16 *) 0x11fa90330
   __PRETTY_FUNCTION__ = "bool CryptoPP::FirstPrime(CryptoPP::Integer&, const CryptoPP::Integer&, const CryptoPP::Integer&, const CryptoPP::Integer&, const CryptoPP::PrimeSelector*)"
#10 0x000000012036c0a0 in CryptoPP::FirstPrime (p=@0x11fa90dd8, max=@0x11fa90860,
equiv=@0x11fa906e0, mod=@0x11fa90720, pSelector=0x11fa90990) at CryptoPP.cpp:1435
   gcd = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120967220}, sign = CryptoPP::Integer::POSITIVE}
   primeTableSize = 3511
   primeTable = (const word16 *) 0x1209672c0
   sieve = {m_first = { = {_vptr$ASN1Object = 0x0}, reg = {
m_alloc = {> = {}, }, m_size = 0, m_ptr = 0x0}, sign = CryptoPP::Integer::POSITIVE},
m_last = { = {_vptr$ASN1Object = 0x0}, reg = {
m_alloc = {> = {}, }, m_size = 0, m_ptr = 0x0}, sign = CryptoPP::Integer::POSITIVE},
m_step = { = {_vptr$ASN1Object = 0x12035b3e0}, reg = {
m_alloc = {> = {}, }, m_size = 1, m_ptr = 0x120349b28}, sign = 531170992}, m_delta = 531171424,
m_next = 4826138688,
m_sieve = {<__gnu_norm::vector >> = {<__gnu_norm::_Bvector_base >> = {
_M_impl = {> = {<__gnu_cxx::new_allocator> = {}, },
_M_start = {<__gnu_norm::_Bit_iterator_base> = {> = {}, _M_p = 0x120374e78,
_M_offset = 531171728}, },
_M_finish = {<__gnu_norm::_Bit_iterator_base> = {> = {}, _M_p = 0x11fa90860,
_M_offset = 531170992}, },
_M_end_of_storage = 0x11fa90dd8}}, }, <__gnu_debug::_Safe_sequence<__gnu_debug_def::vector > >> = {<__gnu_debug::_Safe_sequence_base> = {_M_iterators = 0x11fa90990, _M_const_iterators = 0x120374ed0,
_M_version = 531170992}, }, _M_guaranteed_capacity = 4835430860}}
   __PRETTY_FUNCTION__ = "bool CryptoPP::FirstPrime(CryptoPP::Integer&, const CryptoPP::Integer&, const CryptoPP::Integer&, const CryptoPP::Integer&, const CryptoPP::PrimeSelector*)"
#11 0x000000012036d1ec in CryptoPP::Integer::GenerateRandomNoThrow (this=0x11fa90dd8,
i_rng=@0x11fa90840, params=@0x11fa90990) at CryptoPP.cpp:4513
   pSelector = (const CryptoPP::PrimeSelector *) 0x11fa90990
   i = 1
#12 0x0000000120398c90 in CryptoPP::Integer::GenerateRandom (this=0x11fa8fe20,
rng=@0x11fa90150, params=@0x0) at CryptoPP.h:3217
No locals.
#13 0x000000012036db18 in CryptoPP::InvertibleRSAFunction::GenerateRandom (this=0x11fa90d20,
rng=@0x11fa90ce0, alg=@0x11fa90d50) at CryptoPP.cpp:7906
   modulusSize = 384
   selector = { = {_vptr$PrimeSelector = 0x12047ea68},
m_e = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966fd0}, sign = CryptoPP::Integer::POSITIVE}}
   __PRETTY_FUNCTION__ = "virtual void CryptoPP::InvertibleRSAFunction::GenerateRandom(CryptoPP::RandomNumberGenerator&, const CryptoPP::NameValuePairs&)"
#14 0x0000000120362624 in CryptoPP::InvertibleRSAFunction::Initialize (this=0x11fa90d20,
rng=@0x11fa90ce0, keybits=541592280, e=@0x11fa90e80) at CryptoPP.cpp:7921
No locals.
#15 0x00000001200a79e0 in CClientCreditsList::CreateKeyPair (this=0x11fa8fe20)
at ClientCreditsList.cpp:257
   rng = { = { = { = { = {
_vptr$Clonable = 0x120440ad8}, }, }, > = { = { = { = {
_vptr$Clonable = 0x120440b60}, }, = {
_vptr$Waitable = 0x120440ce8}, static NULL_CHANNEL = {
static npos = 18446744073709551615,
_M_dataplus = {> = {<__gnu_cxx::new_allocator> = {}, }, _M_p = 0x20000a07858 ""}}}, }, pool = {
m_alloc = {> = {}, },
m_size = 384,
m_ptr = 0x120966cd0 "Òìbæ?\200R\231§¯n¥\vêšìüÇ\225ýíÎ[!u\232\212ÉQ\220\227\231cªd:\221Šä5\234\230ŽVY\\uqPV\002íöe¹Ù?Ñv®ú\217\023`jä\001\225€¿\"ê@\231\214\201p¯ÖŒdlß\202\204ÀÀ\225Ó@â·dYeë\023Ùõ\"ÙE\235<Œžþž\232\037-Ä>¶1\2248\216š¯Ý\025}|Ý3ÚîYÄ©-'\223TÝîr\220ÎÞVL%\223\226«á\216=jClúL\220Í°\204š\212rå\217ç\210gü\026\001b?\036çMœ@D\033°Í\216±ÔÒ\233Ô5Ó\236\f\034Ãé\027C\230P\027"...}, key = {
m_alloc = {> = {}, },
m_size = 64,
m_ptr = 0x120966530 "Òìbæ?\200R\231§¯n¥\vêšìüÇ\225ýíÎ[!u\232\212ÉQ\220\227\231cªd:\221Šä5\234\230ŽVY\\uqPV\002íöe¹Ù?Ñv®ú\217\023"}, addPos = 0, getPos = 112}, }
   privkey = { = { = { = { = {
_vptr$TrapdoorFunctionBounds = 0x120476420}, }, }, = { = { = { = {
_vptr$ASN1Object = 0x120476768}, = , }, }, = {}, }, m_n = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966970}, sign = CryptoPP::Integer::POSITIVE},
m_e = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966af0},
sign = CryptoPP::Integer::POSITIVE}}, = { = {
_vptr$RandomizedTrapdoorFunctionInverse = 0x1204765b8}, }, = { = { = {}, },
m_optionalAttributes = {> = { = { = { = {
_vptr$Clonable = 0x120471b68}, }, = {
_vptr$Waitable = 0x120471cf0}, static NULL_CHANNEL = {
static npos = 18446744073709551615,
_M_dataplus = {> = {<__gnu_cxx::new_allocator> = {}, }, _M_p = 0x20000a07858 ""}}}, },
m_autoNodeSize = true, m_nodeSize = 256, m_head = 0x120966ac0, m_tail = 0x120966ac0,
m_lazyString = 0x120966818 "", m_lazyLength = 0, m_lazyStringModifiable = true}},
m_d = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966ba0}, sign = CryptoPP::Integer::POSITIVE},
m_p = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 4, m_ptr = 0x120967260}, sign = CryptoPP::Integer::POSITIVE},
m_q = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966be0}, sign = CryptoPP::Integer::POSITIVE},
m_dp = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966c00}, sign = CryptoPP::Integer::POSITIVE},
m_dq = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966c20}, sign = CryptoPP::Integer::POSITIVE},
m_u = { = {_vptr$ASN1Object = 0x120471830}, reg = {
m_alloc = {> = {}, }, m_size = 2, m_ptr = 0x120966c40}, sign = CryptoPP::Integer::POSITIVE}}
   privkeysink = { = { = { = { = { = { = { = {
_vptr$Clonable = 0x0}, }, = {
_vptr$Waitable = 0x27f7}, static NULL_CHANNEL = {
static npos = 18446744073709551615,
_M_dataplus = {> = {<__gnu_cxx::new_allocator> = {}, },
_M_p = 0x20000a07858 ""}}}, = {},
m_attachment = {m_p = 0x0}, m_inputPosition = 4294967295, m_continueAt = 1},
m_firstSize = 0, m_blockSize = 0, m_lastSize = 0, m_firstInputDone = false,
m_queue = {m_buffer = {
m_alloc = {> = {}, }, m_size = 0, m_ptr = 0x100000000

},
m_blockSize = 537288124, m_maxBlocks = 1, m_size = 546727872,
m_begin = 0x120065f58 "O"}}, m_filter = {
m_p = 0x0}}, }, }
#16 0x00000001200a7fa8 in CClientCreditsList::InitalizeCrypting (this=0x1209667c0)
at ClientCreditsList.cpp:302
filesource = {> = { = {> = { = { = { = { = {
_vptr$Clonable = 0x12078e770}, }, = {
_vptr$Waitable = 0x11fa91230}, static NULL_CHANNEL = {
static npos = 18446744073709551615,
_M_dataplus = {> = {<__gnu_cxx::new_allocator> = {}, },
_M_p = 0x20000a07858 ""}}}, = {},
m_attachment = {m_p = 0x11fa91180}, m_inputPosition = 9394088,
m_continueAt = 512}, }, },
m_store = { = { >> = {> = { = { = { = {
_vptr$Clonable = 0x0}, }, = {
_vptr$Waitable = 0x0}, static NULL_CHANNEL = {
static npos = 18446744073709551615,
_M_dataplus = {> = {<__gnu_cxx::new_allocator> = {}, }, _M_p = 0x20000a07858 ""}}}, },
m_autoSignalPropagation = 541526088},
m_messageEnd = true}, = {m_tempSpace = {
m_alloc = {> = {}, },
m_size = 512,
m_ptr = 0x200008ae9d0 ""}}, = {}, m_file = {
m_p = 0x120966720}, m_stream = 0x120966548, m_space = 0x20000c47898 "",
m_len = 546728088, m_waiting = true}}, }
pubkey = {, CryptoPP::RSA, CryptoPP::PKCS1v15_SignatureMessageEncodingMethod, CryptoPP::SHA> >> = {, CryptoPP::RSA, CryptoPP::PKCS1v15_SignatureMessageEncodingMethod, CryptoPP::SHA>,CryptoPP::PublicKeyCopier >> = { >,CryptoPP::TF_SignatureSchemeOptions, CryptoPP::RSA, CryptoPP::PKCS1v15_SignatureMessageEncodingMethod, CryptoPP::SHA>,CryptoPP::RSAFunction>> = { >,CryptoPP::TF_SS >> = { >> = { = { >> = { = { = {
_vptr$PK_SignatureScheme = 0x120966460}, = { = { = { = {
_vptr$Clonable = 0x11fa91230}, }, }, }, }, > = {
_vptr$TF_Base = 0x11fa91180}, }, }, > = {
_vptr$PublicKeyCopier = 0x200008f57a8}, }, }, },
m_trapdoorFunction = { = { = { = {
_vptr$TrapdoorFunctionBounds = 0x41}, }, }, = {(gdb) quit
The program is running. Exit anyway? (y or n)

Kry · « **Reply #3 on:** July 06, 2006, 08:50:33 AM »

Using the gentoo ebuild?

tcort · « **Reply #4 on:** July 06, 2006, 04:46:33 PM »

Quote

Originally posted by Kry
Using the gentoo ebuild?

Yes

stefanero · « **Reply #5 on:** July 06, 2006, 07:27:24 PM »

well I guess what he wants to know is, if it also happens when you

-download the 2.1.3 tarball
-unpack
and do
-configure && make

if you dont want to mess with your installation, DONT do a make install and run it from the src-dir

aMule Forum

News:

Author Topic: Crashes on Gentoo/Alpha (Read 3351 times)

tcort

Crashes on Gentoo/Alpha

Kry

Re: Crashes on Gentoo/Alpha

tcort

Re: Crashes on Gentoo/Alpha

Kry

Re: Crashes on Gentoo/Alpha

tcort

Re: Crashes on Gentoo/Alpha

stefanero

Re: Crashes on Gentoo/Alpha