version 1.1.2.10, 2001/10/29 11:25:22
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version 1.36, 2003/04/16 00:17:14
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//%///////////////////////////////////////////////////////////////////////////// | //%///////////////////////////////////////////////////////////////////////////// |
// | // |
// Copyright (c) 2000, 2001 The Open group, BMC Software, Tivoli Systems, IBM |
// Copyright (c) 2000, 2001, 2002 BMC Software, Hewlett-Packard Company, IBM, |
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// The Open Group, Tivoli Systems |
// | // |
// Permission is hereby granted, free of charge, to any person obtaining a copy | // Permission is hereby granted, free of charge, to any person obtaining a copy |
// of this software and associated documentation files (the "Software"), to | // of this software and associated documentation files (the "Software"), to |
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// | // |
// Author: Mike Day (mdday@us.ibm.com) | // Author: Mike Day (mdday@us.ibm.com) |
// | // |
// Modified By: |
// Modified By: Rudy Schuet (rudy.schuet@compaq.com) 11/12/01 |
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// added nsk platform support |
// | // |
//%///////////////////////////////////////////////////////////////////////////// | //%///////////////////////////////////////////////////////////////////////////// |
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#include "Thread.h" | #include "Thread.h" |
#include <Pegasus/Common/IPC.h> | #include <Pegasus/Common/IPC.h> |
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#include <Pegasus/Common/Tracer.h> |
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#if defined(PEGASUS_OS_TYPE_WINDOWS) | #if defined(PEGASUS_OS_TYPE_WINDOWS) |
# include "ThreadWindows.cpp" | # include "ThreadWindows.cpp" |
#elif defined(PEGASUS_OS_TYPE_UNIX) | #elif defined(PEGASUS_OS_TYPE_UNIX) |
# include "ThreadUnix.cpp" | # include "ThreadUnix.cpp" |
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#elif defined(PEGASUS_OS_TYPE_NSK) |
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# include "ThreadNsk.cpp" |
#else | #else |
# error "Unsupported platform" | # error "Unsupported platform" |
#endif | #endif |
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{ | { |
_cleanup.insert_first(cu); | _cleanup.insert_first(cu); |
} | } |
catch(IPCException& e) |
catch(IPCException&) |
{ | { |
delete cu; | delete cu; |
throw; | throw; |
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{ | { |
cu = _cleanup.remove_first() ; | cu = _cleanup.remove_first() ; |
} | } |
catch(IPCException& e) |
catch(IPCException&) |
{ | { |
PEGASUS_ASSERT(0); | PEGASUS_ASSERT(0); |
} | } |
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#endif | #endif |
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//thread_data *Thread::put_tsd(Sint8 *key, void (*delete_func)(void *), Uint32 size, void *value) throw(IPCException) |
//thread_data *Thread::put_tsd(const Sint8 *key, void (*delete_func)(void *), Uint32 size, void *value) throw(IPCException) |
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#ifndef PEGASUS_THREAD_EXIT_NATIVE | #ifndef PEGASUS_THREAD_EXIT_NATIVE |
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{ | { |
cleanup_pop(true); | cleanup_pop(true); |
} | } |
catch(IPCException& e) |
catch(IPCException&) |
{ | { |
PEGASUS_ASSERT(0); | PEGASUS_ASSERT(0); |
break; | break; |
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} | } |
_exit_code = exit_code; | _exit_code = exit_code; |
exit_thread(exit_code); | exit_thread(exit_code); |
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_handle.thid = 0; |
} | } |
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#endif | #endif |
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DQueue<ThreadPool> ThreadPool::_pools(true); |
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void ThreadPool::kill_idle_threads(void) |
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{ |
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static struct timeval now, last = {0, 0}; |
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pegasus_gettimeofday(&now); |
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if(now.tv_sec - last.tv_sec > 5) |
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{ |
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_pools.lock(); |
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ThreadPool *p = _pools.next(0); |
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while(p != 0) |
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{ |
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try |
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{ |
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p->kill_dead_threads(); |
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} |
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catch(...) |
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{ |
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} |
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p = _pools.next(p); |
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} |
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_pools.unlock(); |
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pegasus_gettimeofday(&last); |
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} |
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} |
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ThreadPool::ThreadPool(Sint16 initial_size, | ThreadPool::ThreadPool(Sint16 initial_size, |
Sint16 max, |
const Sint8 *key, |
Sint16 min, | Sint16 min, |
Sint8 *key) |
Sint16 max, |
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struct timeval & alloc_wait, |
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struct timeval & dealloc_wait, |
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struct timeval & deadlock_detect) |
: _max_threads(max), _min_threads(min), | : _max_threads(max), _min_threads(min), |
_current_threads(0), _waiters(initial_size), |
_current_threads(0), |
_pool_sem(0), _pool(true), _running(true), |
_pool(true), _running(true), |
_dying(0) |
_dead(true), _dying(0) |
{ |
{ |
_allocate_wait.tv_sec = 1; |
_allocate_wait.tv_sec = alloc_wait.tv_sec; |
_allocate_wait.tv_usec = 0; |
_allocate_wait.tv_usec = alloc_wait.tv_usec; |
_deallocate_wait.tv_sec = 30; |
_deallocate_wait.tv_sec = dealloc_wait.tv_sec; |
_deallocate_wait.tv_usec = 0; |
_deallocate_wait.tv_usec = dealloc_wait.tv_usec; |
_deadlock_detect.tv_sec = 60; |
_deadlock_detect.tv_sec = deadlock_detect.tv_sec; |
_deadlock_detect.tv_usec = 0; |
_deadlock_detect.tv_usec = deadlock_detect.tv_usec; |
memset(_key, 0x00, 17); | memset(_key, 0x00, 17); |
if(key != 0) | if(key != 0) |
strncpy(_key, key, 16); | strncpy(_key, key, 16); |
if(_max_threads < initial_size) |
if(_max_threads > 0 && _max_threads < initial_size) |
_max_threads = initial_size; | _max_threads = initial_size; |
if(_min_threads > initial_size) | if(_min_threads > initial_size) |
_min_threads = initial_size; | _min_threads = initial_size; |
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{ | { |
_link_pool(_init_thread()); | _link_pool(_init_thread()); |
} | } |
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_pools.insert_last(this); |
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} | } |
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ThreadPool::~ThreadPool(void) | ThreadPool::~ThreadPool(void) |
{ | { |
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try |
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{ |
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_pools.remove(this); |
_dying++; | _dying++; |
Thread *th = _pool.remove_first(); |
Thread *th = 0; |
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th = _pool.remove_first(); |
while(th != 0) | while(th != 0) |
{ | { |
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Semaphore *sleep_sem = (Semaphore *)th->reference_tsd("sleep sem"); |
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if(sleep_sem == 0) |
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{ |
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th->dereference_tsd(); |
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throw NullPointer(); |
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} |
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sleep_sem->signal(); |
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sleep_sem->signal(); |
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th->dereference_tsd(); |
// signal the thread's sleep semaphore | // signal the thread's sleep semaphore |
th->cancel(); | th->cancel(); |
th->join(); | th->join(); |
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delete th; | delete th; |
th = _pool.remove_first(); | th = _pool.remove_first(); |
} | } |
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th = _running.remove_first(); |
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while(th != 0) |
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{ |
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// signal the thread's sleep semaphore |
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th->cancel(); |
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th->join(); |
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th->empty_tsd(); |
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delete th; |
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th = _running.remove_first(); |
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} |
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th = _dead.remove_first(); |
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while(th != 0) |
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{ |
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// signal the thread's sleep semaphore |
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th->cancel(); |
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th->join(); |
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th->empty_tsd(); |
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delete th; |
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th = _dead.remove_first(); |
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} |
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} |
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catch(...) |
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{ |
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} |
} | } |
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// make this static to the class | // make this static to the class |
PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL ThreadPool::_loop(void *parm) | PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL ThreadPool::_loop(void *parm) |
{ | { |
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PEG_METHOD_ENTER(TRC_THREAD, "ThreadPool::_loop"); |
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Thread *myself = (Thread *)parm; | Thread *myself = (Thread *)parm; |
if(myself == 0) | if(myself == 0) |
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{ |
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PEG_METHOD_EXIT(); |
throw NullPointer(); | throw NullPointer(); |
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} |
ThreadPool *pool = (ThreadPool *)myself->get_parm(); | ThreadPool *pool = (ThreadPool *)myself->get_parm(); |
if(pool == 0 ) | if(pool == 0 ) |
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{ |
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PEG_METHOD_EXIT(); |
throw NullPointer(); | throw NullPointer(); |
Semaphore *sleep_sem; |
} |
struct timeval *deadlock_timer; |
Semaphore *sleep_sem = 0; |
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Semaphore *blocking_sem = 0; |
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struct timeval *deadlock_timer = 0; |
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try | try |
{ | { |
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deadlock_timer = (struct timeval *)myself->reference_tsd("deadlock timer"); | deadlock_timer = (struct timeval *)myself->reference_tsd("deadlock timer"); |
myself->dereference_tsd(); | myself->dereference_tsd(); |
} | } |
catch(IPCException & e) |
catch(IPCException &) |
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{ |
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PEG_METHOD_EXIT(); |
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myself->exit_self(0); |
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} |
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catch(...) |
{ | { |
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PEG_METHOD_EXIT(); |
myself->exit_self(0); | myself->exit_self(0); |
} | } |
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if(sleep_sem == 0 || deadlock_timer == 0) | if(sleep_sem == 0 || deadlock_timer == 0) |
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{ |
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PEG_METHOD_EXIT(); |
throw NullPointer(); | throw NullPointer(); |
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} |
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while(pool->_dying < 1) | while(pool->_dying < 1) |
{ | { |
myself->test_cancel(); |
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sleep_sem->wait(); | sleep_sem->wait(); |
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// when we awaken we reside on the running queue, not the pool queue | // when we awaken we reside on the running queue, not the pool queue |
myself->test_cancel(); |
if(pool->_dying > 0) |
gettimeofday(deadlock_timer, NULL); |
break; |
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PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *_work)(void *); |
PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *_work)(void *) = 0; |
void *parm; |
void *parm = 0; |
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try | try |
{ | { |
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myself->dereference_tsd(); | myself->dereference_tsd(); |
parm = myself->reference_tsd("work parm"); | parm = myself->reference_tsd("work parm"); |
myself->dereference_tsd(); | myself->dereference_tsd(); |
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blocking_sem = (Semaphore *)myself->reference_tsd("blocking sem"); |
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myself->dereference_tsd(); |
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} | } |
catch(IPCException & e) |
catch(IPCException &) |
{ | { |
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PEG_METHOD_EXIT(); |
myself->exit_self(0); | myself->exit_self(0); |
} | } |
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if(_work == 0) | if(_work == 0) |
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{ |
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PEG_METHOD_EXIT(); |
throw NullPointer(); | throw NullPointer(); |
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} |
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if(_work == |
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(PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *)(void *)) &_undertaker) |
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{ |
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_work(parm); |
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} |
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gettimeofday(deadlock_timer, NULL); |
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try |
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{ |
_work(parm); | _work(parm); |
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} |
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catch(...) |
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{ |
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gettimeofday(deadlock_timer, NULL); |
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} |
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gettimeofday(deadlock_timer, NULL); |
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if( blocking_sem != 0 ) |
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blocking_sem->signal(); |
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// put myself back onto the available list | // put myself back onto the available list |
try | try |
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pool->_running.remove((void *)myself); | pool->_running.remove((void *)myself); |
pool->_link_pool(myself); | pool->_link_pool(myself); |
} | } |
catch(IPCException & e) |
catch(IPCException &) |
{ | { |
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PEG_METHOD_EXIT(); |
myself->exit_self(0); | myself->exit_self(0); |
} | } |
} | } |
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// wait to be awakend by the thread pool destructor |
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sleep_sem->wait(); |
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myself->test_cancel(); |
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PEG_METHOD_EXIT(); |
myself->exit_self(0); | myself->exit_self(0); |
return((PEGASUS_THREAD_RETURN)0); | return((PEGASUS_THREAD_RETURN)0); |
} | } |
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void ThreadPool::allocate_and_awaken(void *parm, | void ThreadPool::allocate_and_awaken(void *parm, |
PEGASUS_THREAD_RETURN \ | PEGASUS_THREAD_RETURN \ |
(PEGASUS_THREAD_CDECL *work)(void *)) |
(PEGASUS_THREAD_CDECL *work)(void *), |
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Semaphore *blocking) |
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throw(IPCException) | throw(IPCException) |
{ | { |
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PEG_METHOD_ENTER(TRC_THREAD, "ThreadPool::allocate_and_awaken"); |
struct timeval start; | struct timeval start; |
gettimeofday(&start, NULL); | gettimeofday(&start, NULL); |
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Thread *th = _pool.remove_first(); | Thread *th = _pool.remove_first(); |
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while (th == 0 && _dying < 1) |
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{ |
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try // we couldn't get a free thread from the pool |
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{ |
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// wait for the right interval and try again | // wait for the right interval and try again |
while(th == 0 && _dying < 1) | while(th == 0 && _dying < 1) |
{ | { |
_check_deadlock(&start); | _check_deadlock(&start); |
Uint32 interval = _allocate_wait.tv_sec * 1000; |
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if(_allocate_wait.tv_usec > 0) |
if(_max_threads == 0 || _current_threads < _max_threads) |
interval += (_deallocate_wait.tv_usec / 1000); |
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// will throw a timeout if no thread comes free |
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_pool_sem.time_wait(interval); |
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th = _pool.remove_first(); |
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} |
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} |
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catch(TimeOut & to) |
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{ |
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if(_current_threads < _max_threads) |
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{ | { |
th = _init_thread(); | th = _init_thread(); |
break; |
continue; |
} | } |
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pegasus_yield(); |
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th = _pool.remove_first(); |
} | } |
// will throw a Deadlock Exception before falling out of the loop |
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_check_deadlock(&start); |
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} // while th == null |
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if(_dying < 1) | if(_dying < 1) |
{ | { |
// initialize the thread data with the work function and parameters | // initialize the thread data with the work function and parameters |
th->remove_tsd("work func"); |
Tracer::trace(TRC_THREAD, Tracer::LEVEL4, |
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"Initializing thread with work function and parameters: parm = %p", |
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parm); |
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th->delete_tsd("work func"); |
th->put_tsd("work func", NULL, | th->put_tsd("work func", NULL, |
sizeof( PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *)(void *)), | sizeof( PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *)(void *)), |
(void *)work); | (void *)work); |
th->remove_tsd("work parm"); |
th->delete_tsd("work parm"); |
th->put_tsd("work parm", NULL, sizeof(void *), parm); | th->put_tsd("work parm", NULL, sizeof(void *), parm); |
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th->delete_tsd("blocking sem"); |
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if(blocking != 0 ) |
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th->put_tsd("blocking sem", NULL, sizeof(Semaphore *), blocking); |
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// put the thread on the running list | // put the thread on the running list |
_running.insert_first(th); | _running.insert_first(th); |
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// signal the thread's sleep semaphore to awaken it | // signal the thread's sleep semaphore to awaken it |
Semaphore *sleep_sem = (Semaphore *)th->reference_tsd("sleep sem"); | Semaphore *sleep_sem = (Semaphore *)th->reference_tsd("sleep sem"); |
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if(sleep_sem == 0) | if(sleep_sem == 0) |
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{ |
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th->dereference_tsd(); |
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PEG_METHOD_EXIT(); |
throw NullPointer(); | throw NullPointer(); |
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} |
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Tracer::trace(TRC_THREAD, Tracer::LEVEL4, "Signal thread to awaken"); |
sleep_sem->signal(); | sleep_sem->signal(); |
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th->dereference_tsd(); |
} | } |
else | else |
_pool.insert_first(th); | _pool.insert_first(th); |
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PEG_METHOD_EXIT(); |
} | } |
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// caller is responsible for only calling this routine during slack periods | // caller is responsible for only calling this routine during slack periods |
// but should call it at least once per _deadlock_detect with the running q | // but should call it at least once per _deadlock_detect with the running q |
// and at least once per _deallocate_wait for the pool q | // and at least once per _deallocate_wait for the pool q |
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void ThreadPool::_kill_dead_threads(DQueue<Thread> *q, Boolean (*check)(struct timeval *)) |
Uint32 ThreadPool::kill_dead_threads(void) |
throw(IPCException) | throw(IPCException) |
{ | { |
struct timeval now; | struct timeval now; |
gettimeofday(&now, NULL); | gettimeofday(&now, NULL); |
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Uint32 bodies = 0; |
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// first go thread the dead q and clean it up as much as possible |
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while(_dead.count() > 0) |
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{ |
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Tracer::trace(TRC_THREAD, Tracer::LEVEL4, "ThreadPool:: removing and joining dead thread"); |
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Thread *dead = _dead.remove_first(); |
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if(dead == 0) |
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throw NullPointer(); |
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dead->join(); |
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delete dead; |
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} |
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DQueue<Thread> * map[2] = |
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{ |
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&_pool, &_running |
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}; |
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DQueue<Thread> dead ; |
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DQueue<Thread> *q = 0; |
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int i = 0; |
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AtomicInt needed(0); |
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#ifdef PEGASUS_DISABLE_KILLING_HUNG_THREADS |
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// This change prevents the thread pool from killing "hung" threads. |
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// The definition of a "hung" thread is one that has been on the run queue |
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// for longer than the time interval set when the thread pool was created. |
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// Cancelling "hung" threads has proven to be problematic. |
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// With this change the thread pool will not cancel "hung" threads. This |
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// may prevent a crash depending upon the state of the "hung" thread. In |
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// the case that the thread is actually hung, this change causes the |
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// thread resources not to be reclaimed. |
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// Idle threads, those that have not executed a routine for a time |
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// interval, continue to be destroyed. This is normal and should not |
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// cause any problems. |
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for( ; i < 1; i++) |
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#else |
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for( ; i < 2; i++) |
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#endif |
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{ |
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q = map[i]; |
if(q->count() > 0 ) | if(q->count() > 0 ) |
{ | { |
try | try |
{ | { |
q->try_lock(); | q->try_lock(); |
} | } |
catch(AlreadyLocked & a) |
catch(...) |
{ | { |
return; |
return bodies; |
} | } |
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Thread *context = 0; |
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struct timeval dt = { 0, 0 }; | struct timeval dt = { 0, 0 }; |
struct timeval *dtp; | struct timeval *dtp; |
Thread *th = q->next(context); |
Thread *th = 0; |
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th = q->next(th); |
while (th != 0 ) | while (th != 0 ) |
{ | { |
try | try |
{ | { |
dtp = (struct timeval *)th->try_reference_tsd("deadlock timer"); | dtp = (struct timeval *)th->try_reference_tsd("deadlock timer"); |
} | } |
catch(AlreadyLocked & a) |
catch(...) |
{ | { |
context = th; |
q->unlock(); |
th = q->next(context); |
return bodies; |
continue; |
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} | } |
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if(dtp != 0) | if(dtp != 0) |
{ | { |
memcpy(&dt, dtp, sizeof(struct timeval)); | memcpy(&dt, dtp, sizeof(struct timeval)); |
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} | } |
th->dereference_tsd(); | th->dereference_tsd(); |
if( true == check(&dt)) |
struct timeval deadlock_timeout; |
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Boolean too_long; |
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if( i == 0) |
{ | { |
th = q->remove_no_lock((void *)th); |
too_long = check_time(&dt, get_deallocate_wait(&deadlock_timeout)); |
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} |
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else |
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{ |
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too_long = check_time(&dt, get_deadlock_detect(&deadlock_timeout)); |
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} |
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if(th != 0) |
if( true == too_long) |
{ | { |
dead.insert_first(th); |
// if we are deallocating from the pool, escape if we are |
th = 0; |
// down to the minimum thread count |
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_current_threads--; |
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if( _current_threads.value() < (Uint32)_min_threads ) |
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{ |
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if( i == 0) |
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{ |
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_current_threads++; |
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th = q->next(th); |
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continue; |
} | } |
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else |
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{ |
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// we are killing a hung thread and we will drop below the |
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// minimum. create another thread to make up for the one |
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// we are about to kill |
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needed++; |
} | } |
context = th; |
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th = q->next(context); |
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} | } |
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th = q->remove_no_lock((void *)th); |
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if(th != 0) |
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{ |
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if( i == 0 ) |
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{ |
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th->delete_tsd("work func"); |
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th->put_tsd("work func", NULL, |
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sizeof( PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *)(void *)), |
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(void *)&_undertaker); |
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th->delete_tsd("work parm"); |
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th->put_tsd("work parm", NULL, sizeof(void *), th); |
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// signal the thread's sleep semaphore to awaken it |
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Semaphore *sleep_sem = (Semaphore *)th->reference_tsd("sleep sem"); |
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if(sleep_sem == 0) |
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{ |
q->unlock(); | q->unlock(); |
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th->dereference_tsd(); |
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throw NullPointer(); |
} | } |
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if(dead.count()) |
bodies++; |
{ |
th->dereference_tsd(); |
Thread *th = dead.remove_first(); |
_dead.insert_first(th); |
while(th != 0) |
sleep_sem->signal(); |
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th = 0; |
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} |
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else |
{ | { |
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// deadlocked threads |
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Tracer::trace(TRC_THREAD, Tracer::LEVEL4, "Killing a deadlocked thread"); |
th->cancel(); | th->cancel(); |
th->join(); |
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delete th; | delete th; |
th = dead.remove_first(); |
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} | } |
} | } |
return; |
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} | } |
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th = q->next(th); |
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pegasus_sleep(1); |
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} |
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q->unlock(); |
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while (needed.value() > 0) |
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{ |
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_link_pool(_init_thread()); |
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needed--; |
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pegasus_sleep(0); |
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} |
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} |
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} |
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return bodies; |
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} |
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Boolean ThreadPool::_check_time(struct timeval *start, struct timeval *interval) |
Boolean ThreadPool::check_time(struct timeval *start, struct timeval *interval) |
{ | { |
struct timeval now; |
// never time out if the interval is zero |
gettimeofday(&now, NULL); |
if(interval && interval->tv_sec == 0 && interval->tv_usec == 0) |
if( (now.tv_sec - start->tv_sec) > interval->tv_sec || |
return false; |
(((now.tv_sec - start->tv_sec) == interval->tv_sec) && |
|
((now.tv_usec - start->tv_usec) >= interval->tv_usec ) ) ) |
struct timeval now, finish, remaining ; |
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Uint32 usec; |
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pegasus_gettimeofday(&now); |
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/* remove valgrind error */ |
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pegasus_gettimeofday(&remaining); |
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|
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finish.tv_sec = start->tv_sec + interval->tv_sec; |
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usec = start->tv_usec + interval->tv_usec; |
|
finish.tv_sec += (usec / 1000000); |
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usec %= 1000000; |
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finish.tv_usec = usec; |
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|
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if ( timeval_subtract(&remaining, &finish, &now) ) |
return true; | return true; |
else | else |
return false; | return false; |
} | } |
| |
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PEGASUS_THREAD_RETURN ThreadPool::_undertaker( void *parm ) |
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{ |
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exit_thread((PEGASUS_THREAD_RETURN)1); |
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return (PEGASUS_THREAD_RETURN)1; |
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} |
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void ThreadPool::_sleep_sem_del(void *p) | void ThreadPool::_sleep_sem_del(void *p) |
{ | { |
if(p != 0) | if(p != 0) |
|
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} | } |
} | } |
| |
inline void ThreadPool::_check_deadlock(struct timeval *start) throw(Deadlock) |
void ThreadPool::_check_deadlock(struct timeval *start) throw(Deadlock) |
{ | { |
if (true == _check_time(start, &_deadlock_detect)) |
if (true == check_time(start, &_deadlock_detect)) |
throw Deadlock(pegasus_thread_self()); | throw Deadlock(pegasus_thread_self()); |
return; | return; |
} | } |
| |
| |
inline Boolean ThreadPool::_check_deadlock_no_throw(struct timeval *start) |
Boolean ThreadPool::_check_deadlock_no_throw(struct timeval *start) |
{ | { |
return(_check_time(start, &_deadlock_detect)); |
return(check_time(start, &_deadlock_detect)); |
} | } |
| |
inline Boolean ThreadPool::_check_dealloc(struct timeval *start) |
Boolean ThreadPool::_check_dealloc(struct timeval *start) |
{ | { |
return(_check_time(start, &_deallocate_wait)); |
return(check_time(start, &_deallocate_wait)); |
} | } |
| |
inline Thread *ThreadPool::_init_thread(void) throw(IPCException) |
Thread *ThreadPool::_init_thread(void) throw(IPCException) |
{ | { |
Thread *th = (Thread *) new Thread(&_loop, this, false); |
Thread *th = (Thread *) new Thread(_loop, this, false); |
// allocate a sleep semaphore and pass it in the thread context | // allocate a sleep semaphore and pass it in the thread context |
// initial count is zero, loop function will sleep until | // initial count is zero, loop function will sleep until |
// we signal the semaphore | // we signal the semaphore |
Semaphore *sleep_sem = (Semaphore *) new Semaphore(0); | Semaphore *sleep_sem = (Semaphore *) new Semaphore(0); |
th->put_tsd("sleep sem", &_sleep_sem_del, sizeof(Semaphore), (void *)sleep_sem); | th->put_tsd("sleep sem", &_sleep_sem_del, sizeof(Semaphore), (void *)sleep_sem); |
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struct timeval *dldt = (struct timeval *) ::operator new(sizeof(struct timeval)); | struct timeval *dldt = (struct timeval *) ::operator new(sizeof(struct timeval)); |
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pegasus_gettimeofday(dldt); |
|
|
th->put_tsd("deadlock timer", thread_data::default_delete, sizeof(struct timeval), (void *)dldt); | th->put_tsd("deadlock timer", thread_data::default_delete, sizeof(struct timeval), (void *)dldt); |
// thread will enter _loop(void *) and sleep on sleep_sem until we signal it | // thread will enter _loop(void *) and sleep on sleep_sem until we signal it |
th->run(); | th->run(); |
_current_threads++; | _current_threads++; |
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pegasus_yield(); |
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return th; | return th; |
} | } |
| |
inline void ThreadPool::_link_pool(Thread *th) throw(IPCException) |
void ThreadPool::_link_pool(Thread *th) throw(IPCException) |
{ | { |
if(th == 0) | if(th == 0) |
throw NullPointer(); | throw NullPointer(); |
_pool.insert_first(th); | _pool.insert_first(th); |
_pool_sem.signal(); |
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} | } |
| |
| |
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PEGASUS_NAMESPACE_END | PEGASUS_NAMESPACE_END |
| |