1 | /* |
---|
2 | * remote_barrier.h - POSIX barrier definition. |
---|
3 | * |
---|
4 | * Author Alain Greiner (2016,2017,2018,2019) |
---|
5 | * |
---|
6 | * Copyright (c) UPMC Sorbonne Universites |
---|
7 | * |
---|
8 | * This file is part of ALMOS-MKH. |
---|
9 | * |
---|
10 | * ALMOS-MKH is free software; you can redistribute it and/or modify it |
---|
11 | * under the terms of the GNU General Public License as published by |
---|
12 | * the Free Software Foundation; version 2.0 of the License. |
---|
13 | * |
---|
14 | * ALMOS-MKH is distributed in the hope that it will be useful, but |
---|
15 | * WITHOUT ANY WARRANTY; without even the implied warranty of |
---|
16 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
---|
17 | * General Public License for more details. |
---|
18 | * |
---|
19 | * You should have received a copy of the GNU General Public License |
---|
20 | * along with ALMOS-MKH; if not, write to the Free Software Foundation, |
---|
21 | * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA |
---|
22 | */ |
---|
23 | |
---|
24 | #ifndef _REMOTE_BARRIER_H_ |
---|
25 | #define _REMOTE_BARRIER_H_ |
---|
26 | |
---|
27 | #include <kernel_config.h> |
---|
28 | #include <hal_kernel_types.h> |
---|
29 | #include <remote_busylock.h> |
---|
30 | #include <xlist.h> |
---|
31 | #include <shared_pthread.h> |
---|
32 | |
---|
33 | /*************************************************************************************** |
---|
34 | * This file defines two implementations for a POSIX compliant barrier. |
---|
35 | * |
---|
36 | * It is used by multi-threaded user applications to synchronise threads running in |
---|
37 | * different clusters. Access functions use RPCs for barrier creation/destruction, |
---|
38 | * and use remote access primitives for actual synchronisation (wait function). |
---|
39 | * |
---|
40 | * A barrier is declared by a given user process as a "pthread_barrier_t" user variable. |
---|
41 | * This user type is implemented in user space as an unsigned long, but the value is not |
---|
42 | * used by the kernel. ALMOS-MKH uses only the barrier virtual address as an identifier. |
---|
43 | * For each user barrier, ALMOS-MKH creates a kernel structure, dynamically allocated |
---|
44 | * by the generic_barrier_create() function, destroyed by the generic_barrier_destroy() |
---|
45 | * function, and used by the generic_barrier_wait() function. |
---|
46 | * |
---|
47 | * Implementation note: |
---|
48 | * ALMOS-MKH supports two barrier implementations: |
---|
49 | * |
---|
50 | * 1) simple_barrier_t |
---|
51 | * If the pointer on the barrier attributes is NULL, the barrier is implemented as |
---|
52 | * a shared variable localized in the reference process cluster. |
---|
53 | * There is a risk of contention when the number of synchronizing threads is large. |
---|
54 | * |
---|
55 | * 2) dqt_barrier_t |
---|
56 | * If the (x_size, y_size, nthreads) arguments are defined in the barrier attributes, |
---|
57 | * the barrier is implemented as a hierarchical quad-tree covering all clusters in the |
---|
58 | * (x_size * ysize) mesh, including cluster (0,0), with nthreads per cluster. |
---|
59 | * This DQT (Distributed Quad Tree) implementation assumes a regular architecture, |
---|
60 | * and a strong contraint on the threads placement: exactly "nthreads" threads per |
---|
61 | * cluster in the (x_size * y_size) mesh. |
---|
62 | * |
---|
63 | * For both implementations, the blocking "generic_barrier_wait()" function implements |
---|
64 | * a descheduling policy when the calling thread is not the last expected thread: |
---|
65 | * the calling thread is registered in a waiting queue, rooted in the barrier structure, |
---|
66 | * and the the calling thread is blocked on the THREAD_BLOCKED_USERSYNC condition. |
---|
67 | * The last arrived thread unblocks all registered waiting threads. |
---|
68 | * **************************************************************************************/ |
---|
69 | |
---|
70 | |
---|
71 | |
---|
72 | /***************************************************************************************** |
---|
73 | * generic barrier descriptor and access functions |
---|
74 | ***************************************************************************************** |
---|
75 | * This generic structure is used by both the simple and the QOT implementations. |
---|
76 | * It is implemented in the reference process cluster, and contains |
---|
77 | * - the barrier identifier, |
---|
78 | * - the implementation type (simple or dqt), |
---|
79 | * - an xlist implementing the set of barriers dynamically created by a given process, |
---|
80 | * - a pointer on the implementation specific descriptor (simple_barrier / sqt_barrier). |
---|
81 | ****************************************************************************************/ |
---|
82 | |
---|
83 | typedef struct generic_barrier_s |
---|
84 | { |
---|
85 | intptr_t ident; /*! virtual address in user space == identifier */ |
---|
86 | xlist_entry_t list; /*! member of list of barriers in same process */ |
---|
87 | bool_t is_dqt; /*! DQT implementation when true */ |
---|
88 | void * extend; /*! implementation specific barrier descriptor */ |
---|
89 | } |
---|
90 | generic_barrier_t; |
---|
91 | |
---|
92 | /***************************************************************************************** |
---|
93 | * This function returns an extended pointer on the remote barrier identified |
---|
94 | * by its virtual address in a given user process. It makes an associative search, |
---|
95 | * scanning the list of barriers rooted in the reference process descriptor. |
---|
96 | * It can be used for both simple and DQT barriers, registered in the same list. |
---|
97 | ***************************************************************************************** |
---|
98 | * @ ident : barrier virtual address, used as identifier. |
---|
99 | * @ returns extended pointer on barrier if success / returns XPTR_NULL if not found. |
---|
100 | ****************************************************************************************/ |
---|
101 | xptr_t generic_barrier_from_ident( intptr_t ident ); |
---|
102 | |
---|
103 | /***************************************************************************************** |
---|
104 | * This function implements the pthread_barrier_init() syscall. |
---|
105 | * It allocates and initialises the generic barrier descriptor in the reference process |
---|
106 | * cluster, and - depending on the <attr> argument, calls the relevant (simple or DQT) |
---|
107 | * function to allocate and initialize the implementation dependant barrier descriptor. |
---|
108 | * Finally, it registers the barrier in the reference process xlist of user barriers. |
---|
109 | * It can be called by a thread running in any cluster, as it use RPC if required. |
---|
110 | ***************************************************************************************** |
---|
111 | * @ ident : barrier virtual address, used as identifier. |
---|
112 | * @ count : number of expected threads. |
---|
113 | * @ attr : barrier attributes (x_size,y_size,nthreads), used by QDT implementation. |
---|
114 | * @ returns 0 if success / returns -1 if not found. |
---|
115 | ****************************************************************************************/ |
---|
116 | error_t generic_barrier_create( intptr_t ident, |
---|
117 | uint32_t count, |
---|
118 | pthread_barrierattr_t * attr ); |
---|
119 | |
---|
120 | /***************************************************************************************** |
---|
121 | * This function implements the pthread_barrier_destroy() syscall. |
---|
122 | * It calls the relevant function (simple or DQT) to release the memory allocated for |
---|
123 | * the implementation specific barrier descriptor, and releases the memory allocated |
---|
124 | * for the generic barrier descriptor. |
---|
125 | * It removes the barrier from the list of barriers rooted in the reference process. |
---|
126 | * It can be called by a thread running in any cluster, as it use RPC if required. |
---|
127 | ***************************************************************************************** |
---|
128 | * @ gen_barrier_xp : extended pointer on generic barrier descriptor. |
---|
129 | ****************************************************************************************/ |
---|
130 | void generic_barrier_destroy( xptr_t gen_barrier_xp ); |
---|
131 | |
---|
132 | /***************************************************************************************** |
---|
133 | * This blocking function implements the pthread_barrier_wait() syscall. |
---|
134 | * It calls the relevant function (simple or DQT) depending on the implementation, |
---|
135 | * and returns only when all expected threads reach the barrier. |
---|
136 | * It can be called by a thread running in any cluster, as it use remote accesses. |
---|
137 | ***************************************************************************************** |
---|
138 | * @ gen_barrier_xp : extended pointer on generic barrier descriptor. |
---|
139 | ****************************************************************************************/ |
---|
140 | void generic_barrier_wait( xptr_t gen_barrier_xp ); |
---|
141 | |
---|
142 | |
---|
143 | /***************************************************************************************** |
---|
144 | * This debug function uses remote accesses to display the current state of a generic |
---|
145 | * barrier identified by the <gen_barrier_xp> argument. |
---|
146 | * It calls the relevant function (simple or DQT) to display relevant information. |
---|
147 | * It can be called by a thread running in any cluster. |
---|
148 | ***************************************************************************************** |
---|
149 | * @ barrier_xp : extended pointer on generic barrier descriptor. |
---|
150 | ****************************************************************************************/ |
---|
151 | |
---|
152 | void generic_barrier_display( xptr_t gen_barrier_xp ); |
---|
153 | |
---|
154 | |
---|
155 | |
---|
156 | /***************************************************************************************** |
---|
157 | * simple barrier descriptor |
---|
158 | ***************************************************************************************** |
---|
159 | * This structure defines the simple barrier descriptor. It is localized in the process |
---|
160 | * reference cluster, as an extension of the generic barrier descriptor. |
---|
161 | * It implements a toggle barrier remotely accessed by all threads. |
---|
162 | * It contains the root of the xlist registering all arrived threads. |
---|
163 | ****************************************************************************************/ |
---|
164 | |
---|
165 | typedef struct simple_barrier_s |
---|
166 | { |
---|
167 | remote_busylock_t lock; /*! lock protecting list of waiting threads */ |
---|
168 | uint32_t current; /*! number of arrived threads */ |
---|
169 | uint32_t sense; /*! barrier state (toggle) */ |
---|
170 | uint32_t arity; /*! number of expected threads */ |
---|
171 | xlist_entry_t root; /*! root of list of waiting threads */ |
---|
172 | } |
---|
173 | simple_barrier_t; |
---|
174 | |
---|
175 | /***************************************************************************************** |
---|
176 | * This function allocates memory for the simple barrier descriptor in the reference |
---|
177 | * cluster of the calling process. It initializes the barrier state and returns |
---|
178 | * a local pointer on the created simple barrier descriptor in reference cluster. |
---|
179 | * It can be called by a thread running in any cluster, as it use RPC if required. |
---|
180 | ***************************************************************************************** |
---|
181 | * @ count : [in] number of expected threads. |
---|
182 | * @ return Local pointer on barrier descriptor if success / return NULL if failure. |
---|
183 | ****************************************************************************************/ |
---|
184 | simple_barrier_t * simple_barrier_create( uint32_t count ); |
---|
185 | |
---|
186 | /***************************************************************************************** |
---|
187 | * This function releases the memory allocated for the simple barrier descriptor. |
---|
188 | * It can be called by a thread running in any cluster, as it use RPC if required. |
---|
189 | ***************************************************************************************** |
---|
190 | * @ barrier_xp : extended pointer on simple barrier descriptor. |
---|
191 | ****************************************************************************************/ |
---|
192 | void simple_barrier_destroy( xptr_t barrier_xp ); |
---|
193 | |
---|
194 | /***************************************************************************************** |
---|
195 | * This blocking function returns only when all expected threads reach the barrier. |
---|
196 | * It can be called by a thread running in any cluster, as it use remote accesses. |
---|
197 | * Waiting threads use a descheduling policy. |
---|
198 | ***************************************************************************************** |
---|
199 | * @ barrier_xp : extended pointer on simple barrier descriptor. |
---|
200 | ****************************************************************************************/ |
---|
201 | void simple_barrier_wait( xptr_t barrier_xp ); |
---|
202 | |
---|
203 | /***************************************************************************************** |
---|
204 | * This debug function uses remote accesses to display the current state of a simple |
---|
205 | * barrier identified by the <barrier_xp> argument. |
---|
206 | * It can be called by a thread running in any cluster. |
---|
207 | ***************************************************************************************** |
---|
208 | * @ barrier_xp : extended pointer on simple barrier descriptor. |
---|
209 | ****************************************************************************************/ |
---|
210 | void simple_barrier_display( xptr_t barrier_xp ); |
---|
211 | |
---|
212 | |
---|
213 | |
---|
214 | |
---|
215 | /***************************************************************************************** |
---|
216 | * dqt_barrier |
---|
217 | ***************************************************************************************** |
---|
218 | * These structuree define the hierarchical DQT barrier, physically distributed in a |
---|
219 | * mesh of clusters defined by the (x_size, y_size, nthreads) arguments: |
---|
220 | * . The involved clusters form a mesh [x_size * y_size] |
---|
221 | * . The lower left involved cluster is cluster(0,0) |
---|
222 | * . The number of threads per cluster is the same in all clusters. |
---|
223 | * |
---|
224 | * Implementation note: |
---|
225 | * - The quad three is implemented as a three dimensions array of node[x][y][l] |
---|
226 | * . [x][y] are the cluster coordinates / max values are (DQT_XMAX-1), (DQT_YMAX-1) |
---|
227 | * . [l] is the node level / 0 for terminal nodes / (DQT_LMAX-1) for the root node |
---|
228 | * - The dqt_barrier_t is the global barrier descriptor, allocated in the reference |
---|
229 | * process cluster as an extension of the generic barrier descriptor. It contains a |
---|
230 | * 3D array of extended pointers on all DQT nodes implementing the DQT barrier. |
---|
231 | * - The dqt_node_t is a local barrier implementing a togle barrier between all threads |
---|
232 | * of a given cluster (for a terminal node), or between all representatives of the four |
---|
233 | * children nodes (for a non terminal node). |
---|
234 | ****************************************************************************************/ |
---|
235 | |
---|
236 | #define DQT_XMAX 16 // max number of clusters in a row |
---|
237 | #define DQT_YMAX 16 // max number of clusters in a column |
---|
238 | #define DQT_LMAX 5 // max depth of the quad tree |
---|
239 | |
---|
240 | typedef struct dqt_node_s |
---|
241 | { |
---|
242 | remote_busylock_t lock; /*! lock protecting list of waiting threads */ |
---|
243 | volatile uint32_t sense; /*! barrier state (toggle) */ |
---|
244 | volatile uint32_t current; /*! number of locally arrived threads */ |
---|
245 | uint32_t arity; /*! total number of locally expected threads */ |
---|
246 | uint32_t level; /*! hierarchical level (0 is bottom) */ |
---|
247 | xptr_t parent_xp; /*! x_pointer on parent node (NULL for root) */ |
---|
248 | xptr_t child_xp[4]; /*! x_pointer on children node (NULL for bottom) */ |
---|
249 | xlist_entry_t root; /*! root of list of waiting threads */ |
---|
250 | } |
---|
251 | dqt_node_t; |
---|
252 | |
---|
253 | typedef struct dqt_barrier_s |
---|
254 | { |
---|
255 | xptr_t node_xp[DQT_XMAX][DQT_YMAX][DQT_LMAX]; /*! array of xptr on DQT nodes */ |
---|
256 | |
---|
257 | uint32_t x_size; /*! number of clusters in one row of DQT mesh */ |
---|
258 | uint32_t y_size; /*! number of clusters in one column of DQT mesh */ |
---|
259 | uint32_t nthreads; /*! number of expected threads in one cluster */ |
---|
260 | } |
---|
261 | dqt_barrier_t; |
---|
262 | |
---|
263 | /***************************************************************************************** |
---|
264 | * This function allocates memory for the DQT barrier descriptor in the reference cluster |
---|
265 | * of the calling process. It allocates also memory in all clusters of the QDT mesh, |
---|
266 | * to store up to 5 QDT nodes per cluster. |
---|
267 | * It initializes the barrier descriptor, including initialisation of the parent/children |
---|
268 | * extended pointers in the distributed QDT nodes. |
---|
269 | * It returns a local pointer on the QDT barrier descriptor in reference cluster. |
---|
270 | * It can be called by a thread running in any cluster, as it use RPCs for memory |
---|
271 | * allocation, and remote access for QDT initialisation. |
---|
272 | ***************************************************************************************** |
---|
273 | * @ x_size : [in] number of clusters in a line of DQT mesh. |
---|
274 | * @ y_size : [in] number of clusters in a column of DQT mesh. |
---|
275 | * @ nthreads : [in] number of threads per cluster. |
---|
276 | * @ return Local pointer on barrier descriptor if success / return NULL if failure. |
---|
277 | ****************************************************************************************/ |
---|
278 | dqt_barrier_t * dqt_barrier_create( uint32_t x_size, |
---|
279 | uint32_t y_size, |
---|
280 | uint32_t nthreads ); |
---|
281 | |
---|
282 | /***************************************************************************************** |
---|
283 | * This function releases all memory allocated for the QDT barrier descriptor. |
---|
284 | * It removes the barrier from the list of barriers rooted in the reference process. |
---|
285 | * It can be called by a thread running in any cluster, as it use RPCs. |
---|
286 | ***************************************************************************************** |
---|
287 | * @ barrier_xp : extended pointer on DQT barrier descriptor. |
---|
288 | ****************************************************************************************/ |
---|
289 | void dqt_barrier_destroy( xptr_t barrier_xp ); |
---|
290 | |
---|
291 | /***************************************************************************************** |
---|
292 | * This blocking function returns only when all expected threads reach the barrier. |
---|
293 | * It can be called by a thread running in any cluster, as it use remote accesses. |
---|
294 | * Waiting threads use a descheduling policy. |
---|
295 | ***************************************************************************************** |
---|
296 | * @ barrier_xp : extended pointer on DQT barrier descriptor. |
---|
297 | ****************************************************************************************/ |
---|
298 | void dqt_barrier_wait( xptr_t barrier_xp ); |
---|
299 | |
---|
300 | /***************************************************************************************** |
---|
301 | * This debug function uses remote accesses to display the current state of all |
---|
302 | * ditributed nodes in a DQT barrier identified by the <barrier_xp> argument. |
---|
303 | * It can be called by a thread running in any cluster. |
---|
304 | ***************************************************************************************** |
---|
305 | * @ barrier_xp : extended pointer on DQT barrier descriptor. |
---|
306 | ****************************************************************************************/ |
---|
307 | void dqt_barrier_display( xptr_t barrier_xp ); |
---|
308 | |
---|
309 | #endif /* _REMOTE_BARRIER_H_ */ |
---|