1 /* This is a master for the "distributed" engine. It receives connections
2 * from slave machines, sends them gtp commands, then aggregates the
3 * results. It can also act as a proxy for the logs of all slave machines.
4 * The slave machines must run with engine "uct" (not "distributed").
5 * The master sends pachi-genmoves gtp commands regularly to each slave,
6 * gets as replies a list of nodes, their number of playouts
7 * and their value. The master then picks the most popular move
8 * among the top level nodes. */
10 /* With time control, the master waits for all slaves, except
11 * when the allowed time is already passed. In this case the
12 * master picks among the available replies, or waits for just
13 * one reply if there is none yet.
14 * Without time control, the master waits until the desired
15 * number of games have been simulated. In this case the -t
16 * parameter for the master should be the sum of the parameters
19 /* The master sends updated statistics for the best nodes in each
20 * genmoves command. They are incremental updates from all other
21 * slaves (so they exclude contributions from the target slave).
22 * The slaves reply with just their own stats. So both master and
23 * slave remember what was previously sent. A slave remembers in
24 * the tree ("pu" field), which is stable across moves. The slave
25 * also has a temporary hash table to map received coord paths
26 * to tree nodes; the hash table is cleared at each new move.
27 * The master remembers stats in a queue of received buffers that
28 * are merged together, plus one hash table per slave. The master
29 * queue and the hash tables are cleared at each new move. */
31 /* To allow the master to select the best move, slaves also send
32 * absolute playout counts for the best top level nodes (children
33 * of the root node), including contributions from other slaves.
34 * The master sums these counts and picks the best sum, which is
35 * equivalent to picking the best average. (The master cannot
36 * use the incremental stats sent in binary form because they
37 * are not maintained across moves, so playouts from previous
38 * moves would be lost.) */
40 /* The master-slave protocol has fault tolerance. If a slave is
41 * out of sync, the master sends it the appropriate command history. */
43 /* Pass me arguments like a=b,c=d,...
44 * Supported arguments:
45 * slave_port=SLAVE_PORT slaves connect to this port; this parameter is mandatory.
46 * max_slaves=MAX_SLAVES default 24
47 * shared_nodes=SHARED_NODES default 10K
48 * stats_hbits=STATS_HBITS default 21. 2^stats_bits = hash table size
49 * slaves_quit=0|1 quit gtp command also sent to slaves, default false.
50 * proxy_port=PROXY_PORT slaves optionally send their logs to this port.
51 * Warning: with proxy_port, the master stderr mixes the logs of all
52 * machines but you can separate them again:
53 * slave logs: sed -n '/< .*:/s/.*< /< /p' logfile
54 * master logs: perl -0777 -pe 's/<[ <].*:.*\n//g' logfile
57 /* A configuration without proxy would have one master run on masterhost as:
58 * zzgo -e distributed slave_port=1234
59 * and N slaves running as:
60 * zzgo -e uct -g masterhost:1234 slave
62 * zzgo -e distributed slave_port=1234,proxy_port=1235
63 * zzgo -e uct -g masterhost:1234 -l masterhost:1235 slave
64 * If the master itself runs on a machine other than that running gogui,
65 * gogui-twogtp, kgsGtp or cgosGtp, it can redirect its gtp port:
66 * zzgo -e distributed -g 10000 slave_port=1234,proxy_port=1235
75 #include <sys/types.h>
86 #include "distributed/distributed.h"
87 #include "distributed/merge.h"
89 /* Internal engine state. */
97 struct move my_last_move
;
98 struct move_stats my_last_stats
;
101 /* Default number of simulations to perform per move.
102 * Note that this is in total over all slaves! */
103 #define DIST_GAMES 80000
104 static const struct time_info default_ti
= {
107 .len
= { .games
= DIST_GAMES
},
110 #define get_value(value, color) \
111 ((color) == S_BLACK ? (value) : 1 - (value))
114 /* Maximum time (seconds) to wait for answers to fast gtp commands
115 * (all commands except pachi-genmoves and final_status_list). */
116 #define MAX_FAST_CMD_WAIT 1.0
118 /* Maximum time (seconds) to wait for answers to genmoves. */
119 #define MAX_GENMOVES_WAIT 0.1 /* 100 ms */
122 /* Display a path as leaf<parent<grandparent...
123 * Returns the path string in a static buffer; it is NOT safe for
124 * anything but debugging - in particular, it is NOT thread-safe! */
126 path2sstr(path_t path
, struct board
*b
)
128 /* Special case for pass and resign. */
129 if (path
< 0) return coord2sstr((coord_t
)path
, b
);
131 static char buf
[16][64];
139 while ((leaf
= leaf_coord(path
, b
)) != 0) {
140 s
+= snprintf(s
, end
- s
, "%s<", coord2sstr(leaf
, b
));
141 path
= parent_path(path
, b
);
143 if (s
!= b2
) s
[-1] = '\0';
147 /* Dispatch a new gtp command to all slaves.
148 * The slave lock must not be held upon entry and is released upon return.
149 * args is empty or ends with '\n' */
150 static enum parse_code
151 distributed_notify(struct engine
*e
, struct board
*b
, int id
, char *cmd
, char *args
, char **reply
)
153 struct distributed
*dist
= e
->data
;
155 /* Commands that should not be sent to slaves.
156 * time_left will be part of next pachi-genmoves,
157 * we reduce latency by not forwarding it here. */
158 if ((!strcasecmp(cmd
, "quit") && !dist
->slaves_quit
)
159 || !strcasecmp(cmd
, "uct_genbook")
160 || !strcasecmp(cmd
, "uct_dumpbook")
161 || !strcasecmp(cmd
, "kgs-chat")
162 || !strcasecmp(cmd
, "time_left")
164 /* and commands that will be sent to slaves later */
165 || !strcasecmp(cmd
, "genmove")
166 || !strcasecmp(cmd
, "kgs-genmove_cleanup")
167 || !strcasecmp(cmd
, "final_score")
168 || !strcasecmp(cmd
, "final_status_list"))
173 // Create a new command to be sent by the slave threads.
174 new_cmd(b
, cmd
, args
);
176 /* Wait for replies here. If we don't wait, we run the
177 * risk of getting out of sync with most slaves and
178 * sending command history too frequently. */
179 get_replies(time_now() + MAX_FAST_CMD_WAIT
, active_slaves
);
185 /* genmoves returns "=id played_own total_playouts threads keep_looking @size"
186 * then a list of lines "coord playouts value" with absolute counts for
187 * children of the root node, then a binary array of incr_stats structs.
188 * To simplify the code, we assume that master and slave have the same architecture
189 * (store values identically).
190 * Return the move with most playouts, and additional stats.
191 * Keep this code in sync with uct/slave.c:report_stats().
192 * slave_lock is held on entry and on return. */
194 select_best_move(struct board
*b
, struct move_stats
*stats
, int *played
,
195 int *total_playouts
, int *total_threads
, bool *keep_looking
)
197 assert(reply_count
> 0);
199 /* +2 for pass and resign */
200 memset(stats
-2, 0, (board_size2(b
)+2) * sizeof(*stats
));
202 coord_t best_move
= pass
;
203 int best_playouts
= -1;
209 for (int reply
= 0; reply
< reply_count
; reply
++) {
210 char *r
= gtp_replies
[reply
];
212 if (sscanf(r
, "=%d %d %d %d %d", &id
, &o
, &p
, &t
, &k
) != 5) continue;
214 *total_playouts
+= p
;
217 // Skip the rest of the firt line in particular @size
222 while (r
&& sscanf(++r
, "%63s %d %f", move
, &s
.playouts
, &s
.value
) == 3) {
223 coord_t c
= str2scoord(move
, board_size(b
));
224 assert (c
>= resign
&& c
< board_size2(b
) && s
.playouts
>= 0);
226 stats_add_result(&stats
[c
], s
.value
, s
.playouts
);
228 if (stats
[c
].playouts
> best_playouts
) {
229 best_playouts
= stats
[c
].playouts
;
235 *keep_looking
= keep
> reply_count
/ 2;
239 /* Set the args for the genmoves command. If binary_args is set,
240 * each slave thred will add the correct binary size when sending
241 * (see get_binary_arg()). args must have CMDS_SIZE bytes and
242 * upon return ends with a single \n.
243 * Keep this code in sync with uct/slave.c:uct_genmoves().
244 * slave_lock is held on entry and on return but we don't
245 * rely on the lock here. */
247 genmoves_args(char *args
, enum stone color
, int played
,
248 struct time_info
*ti
, bool binary_args
)
250 char *end
= args
+ CMDS_SIZE
;
251 char *s
= args
+ snprintf(args
, CMDS_SIZE
, "%s %d", stone2str(color
), played
);
253 if (ti
->dim
== TD_WALLTIME
) {
254 s
+= snprintf(s
, end
- s
, " %.3f %.3f %d %d",
255 ti
->len
.t
.main_time
, ti
->len
.t
.byoyomi_time
,
256 ti
->len
.t
.byoyomi_periods
, ti
->len
.t
.byoyomi_stones
);
258 s
+= snprintf(s
, end
- s
, binary_args
? " @0\n" : "\n");
261 /* Time control is mostly done by the slaves, so we use default values here. */
262 #define FUSEKI_END 20
263 #define YOSE_START 40
265 /* In the ascii reply to genmoves, each slave sends absolute counts
266 * including contributions from other slaves. For human display
267 * reduce the sum to an average. */
268 #define stats_average(playouts) ((playouts) / reply_count)
270 /* Regularly send genmoves command to the slaves, and select the best move. */
272 distributed_genmove(struct engine
*e
, struct board
*b
, struct time_info
*ti
,
273 enum stone color
, bool pass_all_alive
)
275 struct distributed
*dist
= e
->data
;
276 double now
= time_now();
278 char buf
[BSIZE
]; // debug only
280 char *cmd
= pass_all_alive
? "pachi-genmoves_cleanup" : "pachi-genmoves";
281 char args
[CMDS_SIZE
];
284 int played
, playouts
, threads
;
286 if (ti
->period
== TT_NULL
) *ti
= default_ti
;
287 struct time_stop stop
;
288 time_stop_conditions(ti
, b
, FUSEKI_END
, YOSE_START
, &stop
);
289 struct time_info saved_ti
= *ti
;
291 /* Combined move stats from all slaves, only for children
292 * of the root node, plus 2 for pass and resign. */
293 struct move_stats
*stats
= alloca((board_size2(b
)+2) * sizeof(struct move_stats
));
297 clear_receive_queue();
299 /* Send the first genmoves without stats. */
300 genmoves_args(args
, color
, 0, ti
, false);
301 new_cmd(b
, cmd
, args
);
303 /* Loop until most slaves want to quit or time elapsed. */
305 for (iterations
= 1; ; iterations
++) {
307 /* Wait for just one slave to get stats as fresh as possible,
308 * or at most 100ms to check if we run out of time. */
309 get_replies(now
+ MAX_GENMOVES_WAIT
, 1);
311 if (ti
->dim
== TD_WALLTIME
)
312 time_sub(ti
, now
- start
, false);
315 best
= select_best_move(b
, stats
, &played
, &playouts
, &threads
, &keep_looking
);
317 if (!keep_looking
) break;
318 if (ti
->dim
== TD_WALLTIME
) {
319 if (now
- ti
->len
.t
.timer_start
>= stop
.worst
.time
) break;
321 if (played
>= stop
.worst
.playouts
) break;
324 char *coord
= coord2sstr(best
, b
);
325 snprintf(buf
, sizeof(buf
),
326 "temp winner is %s %s with score %1.4f (%d/%d games)"
327 " %d slaves %d threads\n",
328 stone2str(color
), coord
, get_value(stats
[best
].value
, color
),
329 stats_average(stats
[best
].playouts
), playouts
, reply_count
, threads
);
330 logline(NULL
, "* ", buf
);
332 /* Send the command with the same gtp id, to avoid discarding
333 * a reply to a previous genmoves at the same move. */
334 genmoves_args(args
, color
, played
, ti
, true);
335 update_cmd(b
, cmd
, args
, false);
337 int replies
= reply_count
;
339 /* Do not subtract time spent twice (see gtp_parse). */
342 dist
->my_last_move
.color
= color
;
343 dist
->my_last_move
.coord
= best
;
344 dist
->my_last_stats
.value
= stats
[best
].value
;
345 dist
->my_last_stats
.playouts
= stats_average(stats
[best
].playouts
);
347 /* Tell the slaves to commit to the selected move, overwriting
348 * the last "pachi-genmoves" in the command history. */
349 clear_receive_queue();
351 char *coord
= coord2bstr(coordbuf
, best
, b
);
352 snprintf(args
, sizeof(args
), "%s %s\n", stone2str(color
), coord
);
353 update_cmd(b
, "play", args
, true);
357 double time
= now
- first
+ 0.000001; /* avoid divide by zero */
358 snprintf(buf
, sizeof(buf
),
359 "GLOBAL WINNER is %s %s with score %1.4f (%d/%d games)\n"
360 "genmove %d games in %0.2fs %d slaves %d threads (%d games/s,"
361 " %d games/s/slave, %d games/s/thread, %.3f ms/iter)\n",
362 stone2str(color
), coord
, get_value(stats
[best
].value
, color
),
363 stats
[best
].playouts
, playouts
, played
, time
, replies
, threads
,
364 (int)(played
/time
), (int)(played
/time
/replies
),
365 (int)(played
/time
/threads
), 1000*time
/iterations
);
366 logline(NULL
, "* ", buf
);
369 int total_hnodes
= replies
* (1 << dist
->stats_hbits
);
370 merge_print_stats(total_hnodes
);
372 return coord_copy(best
);
376 distributed_chat(struct engine
*e
, struct board
*b
, char *cmd
)
378 struct distributed
*dist
= e
->data
;
379 static char reply
[BSIZE
];
381 cmd
+= strspn(cmd
, " \n\t");
382 if (!strncasecmp(cmd
, "winrate", 7)) {
383 enum stone color
= dist
->my_last_move
.color
;
384 snprintf(reply
, BSIZE
, "In %d playouts at %d machines, %s %s can win with %.2f%% probability.",
385 dist
->my_last_stats
.playouts
, active_slaves
, stone2str(color
),
386 coord2sstr(dist
->my_last_move
.coord
, b
),
387 100 * get_value(dist
->my_last_stats
.value
, color
));
394 scmp(const void *p1
, const void *p2
)
396 return strcasecmp(*(char * const *)p1
, *(char * const *)p2
);
400 distributed_dead_group_list(struct engine
*e
, struct board
*b
, struct move_queue
*mq
)
404 new_cmd(b
, "final_status_list", "dead\n");
405 get_replies(time_now() + MAX_FAST_CMD_WAIT
, active_slaves
);
407 /* Find the most popular reply. */
408 qsort(gtp_replies
, reply_count
, sizeof(char *), scmp
);
412 for (int reply
= 1; reply
< reply_count
; reply
++) {
413 if (!strcmp(gtp_replies
[reply
], gtp_replies
[reply
-1])) {
418 if (count
> best_count
) {
424 /* Pick the first move of each line as group. */
425 char *dead
= gtp_replies
[best_reply
];
426 dead
= strchr(dead
, ' '); // skip "id "
427 while (dead
&& *++dead
!= '\n') {
428 mq_add(mq
, str2scoord(dead
, board_size(b
)), 0);
429 dead
= strchr(dead
, '\n');
434 static struct distributed
*
435 distributed_state_init(char *arg
, struct board
*b
)
437 struct distributed
*dist
= calloc2(1, sizeof(struct distributed
));
439 dist
->stats_hbits
= DEFAULT_STATS_HBITS
;
440 dist
->max_slaves
= DEFAULT_MAX_SLAVES
;
441 dist
->shared_nodes
= DEFAULT_SHARED_NODES
;
443 char *optspec
, *next
= arg
;
446 next
+= strcspn(next
, ",");
447 if (*next
) { *next
++ = 0; } else { *next
= 0; }
449 char *optname
= optspec
;
450 char *optval
= strchr(optspec
, '=');
451 if (optval
) *optval
++ = 0;
453 if (!strcasecmp(optname
, "slave_port") && optval
) {
454 dist
->slave_port
= strdup(optval
);
455 } else if (!strcasecmp(optname
, "proxy_port") && optval
) {
456 dist
->proxy_port
= strdup(optval
);
457 } else if (!strcasecmp(optname
, "max_slaves") && optval
) {
458 dist
->max_slaves
= atoi(optval
);
459 } else if (!strcasecmp(optname
, "shared_nodes") && optval
) {
460 /* Share at most shared_nodes between master and slave at each genmoves.
461 * Must use the same value in master and slaves. */
462 dist
->shared_nodes
= atoi(optval
);
463 } else if (!strcasecmp(optname
, "stats_hbits") && optval
) {
464 /* Set hash table size to 2^stats_hbits for the shared stats. */
465 dist
->stats_hbits
= atoi(optval
);
466 } else if (!strcasecmp(optname
, "slaves_quit")) {
467 dist
->slaves_quit
= !optval
|| atoi(optval
);
469 fprintf(stderr
, "distributed: Invalid engine argument %s or missing value\n", optname
);
474 gtp_replies
= calloc2(dist
->max_slaves
, sizeof(char *));
476 if (!dist
->slave_port
) {
477 fprintf(stderr
, "distributed: missing slave_port\n");
481 merge_init(&default_sstate
, dist
->shared_nodes
, dist
->stats_hbits
, dist
->max_slaves
);
482 protocol_init(dist
->slave_port
, dist
->proxy_port
, dist
->max_slaves
);
488 engine_distributed_init(char *arg
, struct board
*b
)
490 struct distributed
*dist
= distributed_state_init(arg
, b
);
491 struct engine
*e
= calloc2(1, sizeof(struct engine
));
492 e
->name
= "Distributed Engine";
493 e
->comment
= "I'm playing the distributed engine. When I'm losing, I will resign, "
494 "if I think I win, I play until you pass. "
495 "Anyone can send me 'winrate' in private chat to get my assessment of the position.";
496 e
->notify
= distributed_notify
;
497 e
->genmove
= distributed_genmove
;
498 e
->dead_group_list
= distributed_dead_group_list
;
499 e
->chat
= distributed_chat
;
501 // Keep the threads and the open socket connections:
502 e
->keep_on_clear
= true;