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Posted to commits@harmony.apache.org by "Ilya Leviev (JIRA)" <ji...@apache.org> on 2007/05/29 09:28:16 UTC
[jira] Updated: (HARMONY-3924) [drlvm][tc][thread] Race conditions
at "apr_atomic.c":102 and "thread_native_thin_monitor.c":276
[ https://issues.apache.org/jira/browse/HARMONY-3924?page=com.atlassian.jira.plugin.system.issuetabpanels:all-tabpanel ]
Ilya Leviev updated HARMONY-3924:
---------------------------------
Summary: [drlvm][tc][thread] Race conditions at "apr_atomic.c":102 and "thread_native_thin_monitor.c":276 (was: [drlvm][thread] Race conditions at "apr_atomic.c":102 and "thread_native_thin_monitor.c":276)
> [drlvm][tc][thread] Race conditions at "apr_atomic.c":102 and "thread_native_thin_monitor.c":276
> ------------------------------------------------------------------------------------------------
>
> Key: HARMONY-3924
> URL: https://issues.apache.org/jira/browse/HARMONY-3924
> Project: Harmony
> Issue Type: Bug
> Components: DRLVM
> Environment: win2003
> Reporter: Ilya Leviev
> Attachments: SourceViewScreenshot-1.jpg, SourceViewScreenshot-2.jpg
>
>
> TC report on thread unsafe access that result in race condition that occur during concurrent execution of apr_atomic_cas32 and hythread_thin_monitor_try_enter functions.
> Write -> Read data-race
> Memory read at "thread_native_thin_monitor.c":276 conflicts with a prior memory write at "apr_atomic.c":102
> Stack Trace:
> Context
> Function void vm_execute_java_method_array(struct _jmethodID *,union jvalue *,union jvalue *) "ini.cpp":60
> Function ExecuteMethod "em_intf.cpp":43
> Function void DrlEMImpl::executeMethod(struct _jmethodID *,union jvalue *,union jvalue *) "drlemimpl.cpp":509
> Function void JIT_execute_method_default(void *,struct _jmethodID *,union jvalue *,union jvalue *) "ini_ia32.cpp":199
> Function vm_invoke_native_array_stub "ini_ia32.cpp":76
> Function class VM_thread * get_thread_ptr_stub(void) "thread_manager.cpp":138
> Function m2n_free_local_handles "m2n_ia32.cpp":268
> Function class VM_thread * get_thread_ptr_stub(void) "thread_manager.cpp":138
> Function m2n_free_local_handles "m2n_ia32.cpp":268
> Function hythread_thin_monitor_try_enter "thread_native_thin_monitor.c":233
> 1st Access - Write
> Function void DrlEMImpl::executeMethod(struct _jmethodID *,union jvalue *,union jvalue *) "drlemimpl.cpp":509
> Function void JIT_execute_method_default(void *,struct _jmethodID *,union jvalue *,union jvalue *) "ini_ia32.cpp":199
> Function vm_invoke_native_array_stub "ini_ia32.cpp":76
> Function class VM_thread * get_thread_ptr_stub(void) "thread_manager.cpp":138
> Function m2n_free_local_handles "m2n_ia32.cpp":268
> Function class VM_thread * get_thread_ptr_stub(void) "thread_manager.cpp":138
> Function m2n_free_local_handles "m2n_ia32.cpp":268
> Function hythread_thin_monitor_try_enter "thread_native_thin_monitor.c":323
> Function unreserve_lock "thread_native_thin_monitor.c":180
> "179" "" " if (lockword == apr_atomic_cas32 (((volatile apr_uint32_t*) lockword_ptr), "
> "180" "" " (apr_uint32_t) lockword_new, lockword)) {"
> "181" "" " TRACE((""unreserved lock""));"
> "182" "" " break;"
> Function apr_atomic_cas32 "apr_atomic.c":102
> "96" "" " APR_DECLARE(apr_uint32_t) apr_atomic_cas32(volatile apr_uint32_t *mem, apr_uint32_t with,"
> "97" "" " apr_uint32_t cmp)"
> "98" "" " {"
> "99" "" " #if (defined(_M_IA64) || defined(_M_AMD64)) && !defined(RC_INVOKED)"
> "100" "" " return InterlockedCompareExchange(mem, with, cmp);"
> "101" "" " #else"
> "102" "*" " return ((apr_atomic_win32_ptr_val_val_fn)InterlockedCompareExchange)(mem, with, cmp);"
> "103" "" " #endif"
> "104" "" " }"
> 2nd Access - Read
> Function void vm_execute_java_method_array(struct _jmethodID *,union jvalue *,union jvalue *) "ini.cpp":60
> Function ExecuteMethod "em_intf.cpp":43
> Function void DrlEMImpl::executeMethod(struct _jmethodID *,union jvalue *,union jvalue *) "drlemimpl.cpp":509
> Function void JIT_execute_method_default(void *,struct _jmethodID *,union jvalue *,union jvalue *) "ini_ia32.cpp":199
> Function vm_invoke_native_array_stub "ini_ia32.cpp":76
> Function class VM_thread * get_thread_ptr_stub(void) "thread_manager.cpp":138
> Function m2n_free_local_handles "m2n_ia32.cpp":268
> Function class VM_thread * get_thread_ptr_stub(void) "thread_manager.cpp":138
> Function m2n_free_local_handles "m2n_ia32.cpp":268
> Function hythread_thin_monitor_try_enter "thread_native_thin_monitor.c":276
> "275" "" " #ifdef SPIN_COUNT"
> "276" "*" " for (i = SPIN_COUNT; i >=0; i--, lockword = *lockword_ptr, lock_id = THREAD_ID(lockword)) { "
> "277" "" " #endif"
> See also Source View screenshots.
> Notes on Write->Read race condition.
> ------------------------------------
> Write->Read data races occur when one thread writes a shared memory location (address) while another thread concurrently reads the same memory location.
> The shared memory location may be referred to by (variable) name, pointer, or even a function such as memcpy().
> The following example uses a variable name:
> 1st access by first thread
> S1: sharedX = privateA
> 2nd access by second thread
> S2: privateB = sharedX
> If sharedX is a variable visible to all threads and privateA and privateB are local variables visible only to the thread where each was declared,
> concurrent execution of the above statements by multiple threads results in a "race" on the value to be read from sharedX.
> Since the order of execution among threads is unpredictable, it is unknown which value will be available in sharedX to be stored into privateB.
> This results in non-deterministic software, or software prone to produce different results each time it is executed.
> _______________________________________________________________________________________________________________________
> If it not affect correctness of execution I will mark it by special API for prevention of further alarms on this race.
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