273 lines
5.7 KiB
Promela
273 lines
5.7 KiB
Promela
#define NPROC 1
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#define BUFSIZE 2
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#define NTASKS 3
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mtype = { NONE, OK, WRONG_STATE, TERMINATE, GETPSI, PUTPSI, NEWJOB, ENDJOB, SETRUNNING,
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SETWAITING, SETSTOPPED, CONNECT, DISCONNECT, ADDTASK, DELTASK, TASKDONE, GETTASK,
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PSI, TASK, PUTPSI_REPLY, WAITING, RUNNING, STOPPED
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}
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typedef rep_message {
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mtype m = NONE;
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byte value = 0;
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}
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typedef req_message {
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mtype m = NONE;
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byte state = 0;
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byte value = 0;
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chan reply = [BUFSIZE] of { rep_message };
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}
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#define send_req( MESSAGE, VALUE ) msg.m=MESSAGE ; msg.value=VALUE ; msg.state=state; rep_socket ! msg; msg.reply ? reply
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chan rep_socket = [NPROC] of { req_message };
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chan pull_socket = [NPROC] of { byte };
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chan pair_socket = [NPROC] of { req_message };
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chan task_queue = [NTASKS+2] of { byte };
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chan pub_socket = [NTASKS+2] of { mtype };
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bit socket_up = 0;
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mtype global_state; /* Sent by pub */
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active proctype qp_run() {
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bit psi = 0;
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bit address_tcp = 0;
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bit address_inproc = 0;
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bit running = 0;
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byte status = 0;
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byte state = 0;
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byte ntasks = 0;
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req_message msg;
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rep_message reply;
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byte nclients = 0;
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byte task;
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socket_up = 1;
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running = 1;
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do
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// :: ( (running == 0) && (nclients == 0) && (ntasks == 0) ) -> break
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:: ( running == 0 ) -> break
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:: else ->
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rep_socket ? msg;
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printf("req: "); printm(msg.m); printf("\t%d\n",msg.value);
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if
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:: ( msg.m == TERMINATE ) ->
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assert (state != 0);
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assert (msg.state == state);
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running = 0;
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reply.m = OK;
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:: ( msg.m == PUTPSI ) ->
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assert (state != 0);
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assert (msg.state == state);
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assert (psi == 0);
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psi = 1;
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reply.m = PUTPSI_REPLY;
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:: ( msg.m == GETPSI ) ->
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assert (state != 0);
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assert (msg.state == state);
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assert (psi == 1);
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reply.m = PSI;
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:: ( msg.m == NEWJOB ) ->
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assert (state == 0);
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state = msg.value;
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pair_socket ! WAITING;
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reply.m = OK;
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reply.value = state;
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:: ( msg.m == ENDJOB ) ->
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assert (state != 0);
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assert (msg.state == state);
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state = 0;
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pair_socket ! WAITING;
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reply.m = OK;
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:: ( msg.m == ADDTASK ) ->
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assert (state != 0);
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assert (msg.state == state);
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task_queue ! msg.value;
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ntasks++;
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reply.m = OK;
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:: ( msg.m == GETTASK ) ->
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assert (nclients > 0);
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assert (state != 0);
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assert (msg.state == state);
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if
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:: ( task_queue ?[task] ) ->
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pair_socket ! WAITING;
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reply.m = TASK;
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task_queue ? reply.value
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:: else ->
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pair_socket ! RUNNING;
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reply.m = NONE;
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reply.value = 255;
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fi;
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:: ( msg.m == TASKDONE) ->
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assert (state != 0);
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assert (msg.state == state);
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assert (nclients > 0);
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assert (ntasks > 0);
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reply.m = OK;
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:: ( msg.m == DELTASK ) ->
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assert (state != 0);
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assert (msg.state == state);
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ntasks--;
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if
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:: (ntasks > 0) -> reply.value = 1;
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:: else -> reply.value = 0;
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fi;
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reply.m = OK;
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:: ( msg.m == CONNECT ) ->
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assert ( state != 0 )
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nclients++;
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reply.m = OK;
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reply.value = state;
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:: ( msg.m == DISCONNECT ) ->
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assert ( msg.state == state )
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nclients--;
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reply.m = OK;
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:: ( msg.m == STOPPED ) ->
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pair_socket ! STOPPED;
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reply.m = OK;
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:: ( msg.m == WAITING ) ->
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pair_socket ! WAITING;
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reply.m = OK;
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:: ( msg.m == RUNNING ) ->
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assert ( state != 0 );
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pair_socket ! RUNNING;
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reply.m = OK;
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fi
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msg.reply ! reply
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od
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pair_socket ! STOPPED;
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socket_up = 0;
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}
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active proctype master() {
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req_message msg;
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rep_message reply;
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byte state = 0;
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byte count;
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run pub_thread();
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/* New parallel job */
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state=1;
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send_req( NEWJOB, state );
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assert (reply.m == OK);
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/* Add tasks */
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count = 0;
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do
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:: (count == NTASKS) -> break;
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:: else ->
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count++;
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send_req( ADDTASK, count );
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assert (reply.m == OK);
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od
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/* Run collector */
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run collector(state);
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/* Run slaves */
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count = 0;
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do
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:: (count == NPROC) -> break;
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:: else -> count++; run slave();
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od
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}
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proctype slave() {
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req_message msg;
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rep_message reply;
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byte task;
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byte state;
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msg.m=CONNECT;
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msg.state = 0;
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if
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:: (!socket_up) -> goto exit;
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:: else -> skip;
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fi
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rep_socket ! msg;
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if
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:: (!socket_up) -> goto exit;
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:: else -> skip;
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fi
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msg.reply ? reply;
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state = reply.value;
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task = 1;
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do
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:: (task == 255) -> break;
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:: else ->
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send_req( GETTASK, 0);
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if
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:: (reply.m == NONE) ->
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task = 255;
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:: (reply.m == TASK) ->
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/* Compute task */
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task = reply.value;
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send_req( TASKDONE, task);
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assert (reply.m == OK);
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pull_socket ! task;
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fi
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od
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send_req( DISCONNECT, 0);
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assert (reply.m == OK);
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exit: skip;
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}
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proctype collector(byte state) {
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byte task;
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req_message msg;
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rep_message reply;
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bit loop = 1;
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do
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:: (loop == 0) -> break
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:: else ->
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pull_socket ? task;
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/* Handle result */
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send_req(DELTASK, task);
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assert (reply.m == OK);
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loop = reply.value;
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od
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send_req( TERMINATE, 0);
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assert (reply.m == OK);
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}
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proctype pub_thread() {
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mtype state = WAITING;
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do
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:: (state == STOPPED) -> break;
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:: (pair_socket ? [state]) ->
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pair_socket ? state;
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global_state = state;
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od
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}
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