1 karl 1.42 //%2004////////////////////////////////////////////////////////////////////////
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2 mike 1.2 //
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3 karl 1.42 // Copyright (c) 2000, 2001, 2002 BMC Software; Hewlett-Packard Development
4 // Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.
5 // Copyright (c) 2003 BMC Software; Hewlett-Packard Development Company, L.P.;
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6 karl 1.34 // IBM Corp.; EMC Corporation, The Open Group.
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7 karl 1.42 // Copyright (c) 2004 BMC Software; Hewlett-Packard Development Company, L.P.;
8 // IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.
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9 mike 1.2 //
10 // Permission is hereby granted, free of charge, to any person obtaining a copy
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11 kumpf 1.18 // of this software and associated documentation files (the "Software"), to
12 // deal in the Software without restriction, including without limitation the
13 // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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14 mike 1.2 // sell copies of the Software, and to permit persons to whom the Software is
15 // furnished to do so, subject to the following conditions:
16 //
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17 kumpf 1.18 // THE ABOVE COPYRIGHT NOTICE AND THIS PERMISSION NOTICE SHALL BE INCLUDED IN
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18 mike 1.2 // ALL COPIES OR SUBSTANTIAL PORTIONS OF THE SOFTWARE. THE SOFTWARE IS PROVIDED
19 // "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
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20 kumpf 1.18 // LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
21 // PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
22 // HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
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23 mike 1.2 // ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
24 // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
25 //
26 //==============================================================================
27 //
28 // Author: Mike Day (mdday@us.ibm.com)
29 //
30 // Modified By: Markus Mueller
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31 kumpf 1.36 // Roger Kumpf, Hewlett-Packard Company (roger_kumpf@hp.com)
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32 a.arora 1.37 // Amit K Arora, IBM (amita@in.ibm.com) for PEP#101
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33 mike 1.2 //
34 //%/////////////////////////////////////////////////////////////////////////////
35
36 #ifndef Pegasus_Thread_h
37 #define Pegasus_Thread_h
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38 kumpf 1.26
39 #include <cstring>
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40 mike 1.2 #include <Pegasus/Common/Config.h>
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41 mike 1.5 #include <Pegasus/Common/IPC.h>
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42 kumpf 1.23 #include <Pegasus/Common/InternalException.h>
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43 mike 1.2 #include <Pegasus/Common/DQueue.h>
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44 chuck 1.28 #include <Pegasus/Common/AcceptLanguages.h> // l10n
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45 kumpf 1.22 #include <Pegasus/Common/Linkage.h>
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46 a.arora 1.37 #include <Pegasus/Common/AutoPtr.h>
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47 mike 1.2
48 PEGASUS_NAMESPACE_BEGIN
49
50 class PEGASUS_COMMON_LINKAGE cleanup_handler
51 {
52
53 public:
54 cleanup_handler( void (*routine)(void *), void *arg ) : _routine(routine), _arg(arg) {}
55 ~cleanup_handler() {; }
56 inline Boolean operator==(const void *key) const
57 {
58 if(key == (void *)_routine)
59 return true;
60 return false;
61 }
62 inline Boolean operator ==(const cleanup_handler & b) const
63 {
64 return(operator==((const void *)b._routine));
65 }
66 private:
67 void execute(void) { _routine(_arg); }
68 mike 1.2 cleanup_handler();
69 void (*_routine)(void *);
70
71 void *_arg;
72 PEGASUS_CLEANUP_HANDLE _cleanup_buffer;
73 friend class DQueue<class cleanup_handler>;
74 friend class Thread;
75 };
76
77 ///////////////////////////////////////////////////////////////////////////////
78
79
80 class PEGASUS_COMMON_LINKAGE thread_data
81 {
82
83 public:
84 static void default_delete(void *data);
85
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86 kumpf 1.7 thread_data( const Sint8 *key ) : _delete_func(NULL) , _data(NULL), _size(0)
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87 mike 1.2 {
88 PEGASUS_ASSERT(key != NULL);
89 size_t keysize = strlen(key);
90 _key = new Sint8 [keysize + 1];
91 memcpy(_key, key, keysize);
92 _key[keysize] = 0x00;
93
94 }
95
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96 kumpf 1.7 thread_data(const Sint8 *key, size_t size) : _delete_func(default_delete), _size(size)
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97 mike 1.2 {
98 PEGASUS_ASSERT(key != NULL);
99 size_t keysize = strlen(key);
100 _key = new Sint8 [keysize + 1];
101 memcpy(_key, key, keysize);
102 _key[keysize] = 0x00;
103 _data = ::operator new(_size) ;
104
105 }
106
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107 kumpf 1.7 thread_data(const Sint8 *key, size_t size, void *data) : _delete_func(default_delete), _size(size)
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108 mike 1.2 {
109 PEGASUS_ASSERT(key != NULL);
110 PEGASUS_ASSERT(data != NULL);
111 size_t keysize = strlen(key);
112
113 _key = new Sint8[keysize + 1];
114 memcpy(_key, key, keysize);
115 _key[keysize] = 0x00;
116 _data = ::operator new(_size);
117 memcpy(_data, data, size);
118 }
119
120 ~thread_data()
121 {
122 if( _data != NULL)
123 if(_delete_func != NULL)
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124 sage 1.9 {
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125 mike 1.2 _delete_func( _data );
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126 sage 1.9 }
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127 mike 1.2 if( _key != NULL )
128 delete [] _key;
129 }
130
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131 konrad.r 1.40 /**
132 * This function is used to put data in thread space.
133 *
134 * Be aware that there is NOTHING in place to stop
135 * other users of the thread to remove this data.
136 * Or change the data.
137 *
138 * You, the developer has to make sure that there are
139 * no situations in which this can arise (ie, have a
140 * lock for the function which manipulates the TSD.
141 */
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142 mike 1.2 void put_data(void (*del)(void *), size_t size, void *data ) throw(NullPointer)
143 {
144 if(_data != NULL)
145 if(_delete_func != NULL)
146 _delete_func(_data);
147
148 _delete_func = del;
149 _data = data;
150 _size = size;
151 return ;
152 }
153
154 size_t get_size(void) { return _size; }
155
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156 konrad.r 1.40 /**
157 * This function is used to retrieve data from the
158 * TSD, the thread specific data.
159 *
160 * Be aware that there is NOTHING in place to stop
161 * other users of the thread to change the data you
162 * get from this function.
163 *
164 * You, the developer has to make sure that there are
165 * no situations in which this can arise (ie, have a
166 * lock for the function which manipulates the TSD.
167 */
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168 mike 1.2 void get_data(void **data, size_t *size)
169 {
170 if(data == NULL || size == NULL)
171 throw NullPointer();
172
173 *data = _data;
174 *size = _size;
175 return;
176
177 }
178
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179 kumpf 1.17 void copy_data(void **buf, size_t *size) throw(NullPointer)
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180 mike 1.2 {
181 if((buf == NULL) || (size == NULL))
182 throw NullPointer() ;
183 *buf = ::operator new(_size);
184 *size = _size;
185 memcpy(*buf, _data, _size);
186 return;
187 }
188
189 inline Boolean operator==(const void *key) const
190 {
191 if ( ! strcmp(_key, (Sint8 *)key))
192 return(true);
193 return(false);
194 }
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195 mday 1.8
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196 mike 1.2 inline Boolean operator==(const thread_data& b) const
197 {
198 return(operator==((const void *)b._key));
199 }
200
201 private:
202 void (*_delete_func) (void *data) ;
203 thread_data();
204 void *_data;
205 size_t _size;
206 Sint8 *_key;
207
208 friend class DQueue<thread_data>;
209 friend class Thread;
210 };
211
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212 denise.eckstein 1.42.2.1 enum ThreadStatus {
213 PEGASUS_THREAD_OK = 1, /* No problems */
214 PEGASUS_THREAD_INSUFFICIENT_RESOURCES, /* Can't allocate a thread. Not enough
215 memory. Try again later */
216 PEGASUS_THREAD_SETUP_FAILURE, /* Could not allocate into the thread specific
217 data storage. */
218 PEGASUS_THREAD_UNAVAILABLE /* Service is being destroyed and no new threads can
219 be provided. */
220 };
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221 mike 1.2
222 ///////////////////////////////////////////////////////////////////////////
223
224 class PEGASUS_COMMON_LINKAGE ThreadPool;
225
226 class PEGASUS_COMMON_LINKAGE Thread
227 {
228
229 public:
230 Thread( PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL *start )(void *),
231 void *parameter, Boolean detached );
232
233 ~Thread();
234
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235 kumpf 1.36 /**
236 Start the thread.
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237 denise.eckstein 1.42.2.1 @return PEGASUS_THREAD_OK if the thread is started successfully,
238 PEGASUS_THREAD_INSUFFICIENT_RESOURCES if the resources necessary
239 to start the thread are not currently available.
240 PEGASUS_THREAD_SETUP_FAILURE if the thread could not
241 be create properly - check the 'errno' value for specific operating
242 system return code.
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243 kumpf 1.36 */
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244 denise.eckstein 1.42.2.1 ThreadStatus run();
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245 mike 1.2
246 // get the user parameter
247 inline void *get_parm(void) { return _thread_parm; }
248
249 // send the thread a signal -- may not be appropriate due to Windows
250 // void kill(int signum);
251
252 // cancellation must be deferred (not asynchronous)
253 // for user-level threads the thread itself can decide
254 // when it should die.
255 void cancel(void);
256
257 // cancel if there is a pending cancellation request
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258 kumpf 1.25 void test_cancel(void);
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259 mike 1.2
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260 mday 1.3 Boolean is_cancelled(void);
261
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262 mike 1.2 // for user-level threads - put the calling thread
263 // to sleep and jump to the thread scheduler.
264 // platforms with preemptive scheduling and native threads
265 // can define this to be a no-op.
266 // platforms without preemptive scheduling like NetWare
267 // or gnu portable threads will have an existing
268 // routine that can be mapped to this method
269
270 void thread_switch(void);
271
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272 david.eger 1.27 #if defined(PEGASUS_PLATFORM_LINUX_GENERIC_GNU)
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273 mike 1.2 // suspend this thread
274 void suspend(void) ;
275
276 // resume this thread
277 void resume(void) ;
278 #endif
279
280 static void sleep(Uint32 msec) ;
281
282 // block the calling thread until this thread terminates
283 void join( void );
284 void thread_init(void);
285
286 // thread routine needs to call this function when
287 // it is ready to exit
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288 kumpf 1.25 void exit_self(PEGASUS_THREAD_RETURN return_code) ;
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289 mike 1.2
290 // stack of functions to be called when thread terminates
291 // will be called last in first out (LIFO)
292 void cleanup_push( void (*routine) (void *), void *parm ) throw(IPCException);
293 void cleanup_pop(Boolean execute = true) throw(IPCException);
294
295 // create and initialize a tsd
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296 kumpf 1.7 inline void create_tsd(const Sint8 *key, int size, void *buffer) throw(IPCException)
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297 mike 1.2 {
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298 a.arora 1.37 AutoPtr<thread_data> tsd(new thread_data(key, size, buffer));
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299 a.arora 1.38 _tsd.insert_first(tsd.get());
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300 a.arora 1.37 tsd.release();
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301 mike 1.2 }
302
303 // get the buffer associated with the key
304 // NOTE: this call leaves the tsd LOCKED !!!!
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305 kumpf 1.7 inline void *reference_tsd(const Sint8 *key) throw(IPCException)
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306 mike 1.2 {
307 _tsd.lock();
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308 kumpf 1.7 thread_data *tsd = _tsd.reference((const void *)key);
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309 mike 1.2 if(tsd != NULL)
310 return( (void *)(tsd->_data) );
311 else
312 return(NULL);
313 }
314
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315 kumpf 1.7 inline void *try_reference_tsd(const Sint8 *key) throw(IPCException)
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316 mike 1.2 {
317 _tsd.try_lock();
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318 kumpf 1.7 thread_data *tsd = _tsd.reference((const void *)key);
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319 mike 1.2 if(tsd != NULL)
320 return((void *)(tsd->_data) );
321 else
322 return(NULL);
323 }
324
325
326 // release the lock held on the tsd
327 // NOTE: assumes a corresponding and prior call to reference_tsd() !!!
328 inline void dereference_tsd(void) throw(IPCException)
329 {
330 _tsd.unlock();
331 }
332
333 // delete the tsd associated with the key
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334 kumpf 1.7 inline void delete_tsd(const Sint8 *key) throw(IPCException)
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335 mike 1.2 {
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336 a.arora 1.37 AutoPtr<thread_data> tsd(_tsd.remove((const void *)key));
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337 mike 1.2 }
338
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339 kumpf 1.14 // Note: Caller must delete the thread_data object returned (if not null)
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340 kumpf 1.7 inline void *remove_tsd(const Sint8 *key) throw(IPCException)
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341 mike 1.2 {
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342 kumpf 1.7 return(_tsd.remove((const void *)key));
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343 mike 1.2 }
344
345 inline void empty_tsd(void) throw(IPCException)
346 {
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347 mday 1.33
348 try
349 {
350
351 _tsd.try_lock();
352 }
353 catch(IPCException&)
354 {
355 return;
356 }
357
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358 a.arora 1.37 AutoPtr<thread_data> tsd(_tsd.next(0));
359 while(tsd.get())
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360 mday 1.33 {
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361 a.arora 1.37 _tsd.remove_no_lock(tsd.get());
362 tsd.reset(_tsd.next(0));
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363 mday 1.33 }
364 _tsd.unlock();
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365 mike 1.2 }
366
367 // create or re-initialize tsd associated with the key
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368 kumpf 1.14 // if the tsd already exists, delete the existing buffer
369 void put_tsd(const Sint8 *key, void (*delete_func)(void *), Uint32 size, void *value)
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370 mike 1.2 throw(IPCException)
371
372 {
373 PEGASUS_ASSERT(key != NULL);
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374 a.arora 1.37 AutoPtr<thread_data> tsd ;
375 tsd.reset(_tsd.remove((const void *)key)); // may throw an IPC exception
376 tsd.reset();
377 AutoPtr<thread_data> ntsd(new thread_data(key));
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378 mike 1.2 ntsd->put_data(delete_func, size, value);
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379 a.arora 1.37 try { _tsd.insert_first(ntsd.get()); }
380 catch(IPCException& e) { e = e; throw; }
381 ntsd.release();
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382 mike 1.2 }
383 inline PEGASUS_THREAD_RETURN get_exit(void) { return _exit_code; }
384 inline PEGASUS_THREAD_TYPE self(void) {return pegasus_thread_self(); }
385
386 PEGASUS_THREAD_HANDLE getThreadHandle() {return _handle;}
387
388 inline Boolean operator==(const void *key) const
389 {
390 if ( (void *)this == key)
391 return(true);
392 return(false);
393 }
394 inline Boolean operator==(const Thread & b) const
395 {
396 return(operator==((const void *)&b ));
397 }
398
399 void detach(void);
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400 chuck 1.28
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401 chuck 1.29 //
402 // Gets the Thread object associated with the caller's thread.
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403 chuck 1.31 // Note: this may return NULL if no Thread object is associated
404 // with the caller's thread.
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405 chuck 1.29 //
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406 chuck 1.28 static Thread * getCurrent(); // l10n
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407 chuck 1.29
408 //
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409 chuck 1.31 // Sets the Thread object associated with the caller's thread.
410 // Note: the Thread object must be placed on the heap.
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411 chuck 1.29 //
412 static void setCurrent(Thread * thrd); // l10n
413
414 //
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415 chuck 1.31 // Gets the AcceptLanguages object associated with the caller's
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416 chuck 1.29 // Thread.
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417 chuck 1.31 // Note: this may return NULL if no Thread object, or no
418 // AcceptLanguages object, is associated with the caller's thread.
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419 chuck 1.29 //
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420 chuck 1.28 static AcceptLanguages * getLanguages(); //l10n
421
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422 chuck 1.29 //
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423 chuck 1.31 // Sets the AcceptLanguages object associated with the caller's
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424 chuck 1.29 // Thread.
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425 chuck 1.31 // Note: a Thread object must have been previously associated with
426 // the caller's thread.
427 // Note: the AcceptLanguages object must be placed on the heap.
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428 chuck 1.29 //
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429 chuck 1.28 static void setLanguages(AcceptLanguages *langs); //l10n
430
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431 chuck 1.29 //
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432 chuck 1.31 // Removes the AcceptLanguages object associated with the caller's
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433 chuck 1.29 // Thread.
434 //
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435 chuck 1.28 static void clearLanguages(); //l10n
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436 mike 1.2
437 private:
438 Thread();
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439 chuck 1.29
440 static Sint8 initializeKey(); // l10n
441
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442 kumpf 1.7 inline void create_tsd(const Sint8 *key ) throw(IPCException)
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443 mike 1.2 {
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444 a.arora 1.37 AutoPtr<thread_data> tsd(new thread_data(key));
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445 a.arora 1.38 _tsd.insert_first(tsd.get());
446 tsd.release();
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447 mike 1.2 }
448 PEGASUS_THREAD_HANDLE _handle;
449 Boolean _is_detached;
450 Boolean _cancel_enabled;
451 Boolean _cancelled;
452
453 PEGASUS_SEM_HANDLE _suspend_count;
454
455 // always pass this * as the void * parameter to the thread
456 // store the user parameter in _thread_parm
457
458 PEGASUS_THREAD_RETURN ( PEGASUS_THREAD_CDECL *_start)(void *) ;
459 DQueue<class cleanup_handler> _cleanup;
460 DQueue<class thread_data> _tsd;
461
462 void *_thread_parm;
463 PEGASUS_THREAD_RETURN _exit_code;
464 static Boolean _signals_blocked;
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465 chuck 1.28 static PEGASUS_THREAD_KEY_TYPE _platform_thread_key; //l10n
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466 chuck 1.30 static Boolean _key_initialized; // l10n
467 static Boolean _key_error; // l10n
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468 mike 1.2 friend class ThreadPool;
469 } ;
470
471
472 class PEGASUS_COMMON_LINKAGE ThreadPool
473 {
474 public:
475
476 ThreadPool(Sint16 initial_size,
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477 kumpf 1.7 const Sint8 *key,
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478 mike 1.2 Sint16 min,
479 Sint16 max,
480 struct timeval & alloc_wait,
481 struct timeval & dealloc_wait,
482 struct timeval & deadlock_detect);
483
484 ~ThreadPool(void);
485
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486 kumpf 1.36 /**
487 Allocate and start a thread to do a unit of work.
488 @param parm A generic parameter to pass to the thread
489 @param work A pointer to the function that is to be executed by
490 the thread
491 @param blocking A pointer to an optional semaphore which, if
492 specified, is signaled after the thread finishes
493 executing the work function
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494 denise.eckstein 1.42.2.1 @return PEGASUS_THREAD_OK if the thread is started successfully,
495 PEGASUS_THREAD_INSUFFICIENT_RESOURCES if the
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496 kumpf 1.36 resources necessary to start the thread are not currently
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497 denise.eckstein 1.42.2.1 available. PEGASUS_THREAD_SETUP_FAILURE if the thread
498 could not be setup properly. PEGASUS_THREAD_UNAVAILABLE
499 if this service is shutting down and no more threads can
500 be allocated.
501 @exception IPCException
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502 kumpf 1.36 */
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503 denise.eckstein 1.42.2.1 ThreadStatus allocate_and_awaken(
504 void* parm,
505 PEGASUS_THREAD_RETURN (PEGASUS_THREAD_CDECL* work)(void *),
506 Semaphore* blocking = 0);
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507 mday 1.8
508 Uint32 kill_dead_threads( void )
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509 mike 1.2 throw(IPCException);
510
511 void get_key(Sint8 *buf, int bufsize);
512
513 inline Boolean operator==(const void *key) const
514 {
515 if ( ! strncmp( reinterpret_cast<Sint8 *>(const_cast<void *>(key)), _key, 16 ))
516 return(true);
517 return(false);
518 }
519 inline Boolean operator==(const ThreadPool & b) const
520 {
521 return(operator==((const void *) b._key ));
522 }
523
524 inline void set_min_threads(Sint16 min)
525 {
526 _min_threads = min;
527 }
528
529 inline Sint16 get_min_threads(void) const
530 mike 1.2 {
531 return _min_threads;
532 }
533
534 inline void set_max_threads(Sint16 max)
535 {
536 _max_threads = max;
537 }
538
539 inline Sint16 get_max_threads(void) const
540 {
541 return _max_threads;
542 }
543
544 inline void set_allocate_wait(const struct timeval & alloc_wait)
545 {
546 _allocate_wait.tv_sec = alloc_wait.tv_sec;
547 _allocate_wait.tv_usec = alloc_wait.tv_usec;
548 }
549
550 inline struct timeval *get_allocate_wait(struct timeval *buffer) const
551 mike 1.2 {
552 if(buffer == 0)
553 throw NullPointer();
554 buffer->tv_sec = _allocate_wait.tv_sec;
555 buffer->tv_usec = _allocate_wait.tv_usec;
556 return buffer;
557 }
558
559 inline void set_deallocate_wait(const struct timeval & dealloc_wait)
560 {
561 _deallocate_wait.tv_sec = dealloc_wait.tv_sec;
562 _deallocate_wait.tv_usec = dealloc_wait.tv_usec;
563 }
564
565 inline struct timeval *get_deallocate_wait(struct timeval *buffer) const
566 {
567 if(buffer == 0)
568 throw NullPointer();
569 buffer->tv_sec = _deallocate_wait.tv_sec;
570 buffer->tv_usec = _deallocate_wait.tv_usec;
571 return buffer;
572 mike 1.2 }
573
574 inline void set_deadlock_detect(const struct timeval & deadlock)
575 {
576 _deadlock_detect.tv_sec = deadlock.tv_sec;
577 _deadlock_detect.tv_usec = deadlock.tv_usec;
578 }
579
580 inline Uint32 running_count(void)
581 {
582 return _running.count();
583 }
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584 mday 1.19
585 inline Uint32 pool_count(void)
586 {
587 return _pool.count();
588 }
589 inline Uint32 dead_count(void)
590 {
591 return _dead.count();
592 }
593
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594 mike 1.2
595 static Boolean check_time(struct timeval *start, struct timeval *interval);
596
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597 mday 1.21 Boolean operator ==(const ThreadPool & p)
598 {
599 return operator==((const void *)&p);
600 }
601
602 Boolean operator ==(const void *p)
603 {
604 if((void *)this == p)
605 return true;
606 return false;
607 }
608
609 static void kill_idle_threads(void);
610
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611 mike 1.2 private:
612 ThreadPool(void);
613 Sint16 _max_threads;
614 Sint16 _min_threads;
615 AtomicInt _current_threads;
616 struct timeval _allocate_wait;
617 struct timeval _deallocate_wait;
618 struct timeval _deadlock_detect;
619 static PEGASUS_THREAD_RETURN PEGASUS_THREAD_CDECL _loop(void *);
620 Sint8 _key[17];
621 DQueue<Thread> _pool;
622 DQueue<Thread> _running;
623 DQueue<Thread> _dead;
624 AtomicInt _dying;
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625 mday 1.32
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626 mike 1.2 static void _sleep_sem_del(void *p);
627
628 void _check_deadlock(struct timeval *start) throw(Deadlock);
629 Boolean _check_deadlock_no_throw(struct timeval *start);
630 Boolean _check_dealloc(struct timeval *start);
631 Thread *_init_thread(void) throw(IPCException);
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632 kumpf 1.42.2.2 void _cleanupThread(Thread* thread);
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633 mike 1.2 void _link_pool(Thread *th) throw(IPCException);
634 static PEGASUS_THREAD_RETURN _undertaker(void *);
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635 konrad.r 1.39 static PEGASUS_THREAD_RETURN _graveyard(Thread *);
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636 mday 1.21 static DQueue<ThreadPool> _pools;
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637 mike 1.2 };
638
639
640
641
642 #if defined(PEGASUS_OS_TYPE_WINDOWS)
643 # include "ThreadWindows_inline.h"
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644 sage 1.6 #elif defined(PEGASUS_PLATFORM_ZOS_ZSERIES_IBM)
645 # include "ThreadzOS_inline.h"
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646 mike 1.2 #elif defined(PEGASUS_OS_TYPE_UNIX)
647 # include "ThreadUnix_inline.h"
648 #endif
649
650 PEGASUS_NAMESPACE_END
651
652 #endif // Pegasus_Thread_h
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