struct chirp_client *chirp_client_connect(const char *hostport, int negotiate_auth, time_t stoptime)
{
struct chirp_client *c;
char addr[LINK_ADDRESS_MAX];
char host[DOMAIN_NAME_MAX];
int save_errno;
int port;
if(sscanf(hostport, "%[^:]:%d", host, &port) == 2) {
/* use the split host and port */
} else {
strcpy(host, hostport);
port = CHIRP_PORT;
}
if(!domain_name_cache_lookup(host, addr)) {
errno = ENOENT;
return 0;
}
c = malloc(sizeof(*c));
if(c) {
c->link = link_connect(addr, port, stoptime);
c->broken = 0;
c->serial = global_serial++;
strcpy(c->hostport, hostport);
if(c->link) {
link_tune(c->link, LINK_TUNE_INTERACTIVE);
if(negotiate_auth) {
char *type, *subject;
int result = auth_assert(c->link, &type, &subject, stoptime);
if(result) {
free(type);
free(subject);
return c;
} else {
chirp_client_disconnect(c);
c = 0;
if(time(0) >= stoptime) {
errno = ECONNRESET;
} else {
errno = EACCES;
}
}
} else {
return c;
}
}
save_errno = errno;
free(c);
errno = save_errno;
}
return 0;
}
struct mpi_queue_task *mpi_queue_wait(struct mpi_queue *q, int timeout)
{
struct mpi_queue_task *t;
time_t stoptime;
int result;
if(timeout == MPI_QUEUE_WAITFORTASK) {
stoptime = 0;
} else {
stoptime = time(0) + timeout;
}
while(1) {
// If a task is already complete, return it
t = list_pop_head(q->complete_list);
if(t)
return t;
if(list_size(q->ready_list) == 0 && itable_size(q->active_list) == 0)
break;
// Wait no longer than the caller's patience.
int msec;
int sec;
if(stoptime) {
sec = MAX(0, stoptime - time(0));
msec = sec * 1000;
} else {
sec = 5;
msec = 5000;
}
if(!q->mpi_link) {
q->mpi_link = link_accept(q->master_link, stoptime);
if(q->mpi_link) {
char working_dir[MPI_QUEUE_LINE_MAX];
link_tune(q->mpi_link, LINK_TUNE_INTERACTIVE);
link_usleep(q->mpi_link, msec, 0, 1);
getcwd(working_dir, MPI_QUEUE_LINE_MAX);
link_putfstring(q->mpi_link, "workdir %s\n", stoptime, working_dir);
result = link_usleep(q->mpi_link, msec, 1, 1);
} else {
result = 0;
}
} else {
debug(D_MPI, "Waiting for link to be ready\n");
result = link_usleep(q->mpi_link, msec, 1, 1);
}
// If nothing was awake, restart the loop or return without a task.
if(result <= 0) {
if(stoptime && time(0) >= stoptime) {
return 0;
} else {
continue;
}
}
debug(D_MPI, "sending %d tasks to the MPI master process\n", list_size(q->ready_list));
// Send all ready tasks to the MPI master process
while(list_size(q->ready_list)) {
struct mpi_queue_task *t = list_pop_head(q->ready_list);
result = dispatch_task(q->mpi_link, t, msec/1000);
if(result <= 0)
return 0;
itable_insert(q->active_list, t->taskid, t);
}
// Receive any results back
result = get_results(q->mpi_link, q->active_list, q->complete_list, msec/1000);
if(result < 0) {
return 0;
}
}
return 0;
}
int master_main(const char *host, int port, const char *addr) {
time_t idle_stoptime;
struct link *master = NULL;
int num_workers, i;
struct mpi_queue_job **workers;
struct itable *active_jobs = itable_create(0);
struct itable *waiting_jobs = itable_create(0);
struct list *complete_jobs = list_create();
MPI_Comm_size(MPI_COMM_WORLD, &num_workers);
workers = malloc(num_workers * sizeof(*workers));
memset(workers, 0, num_workers * sizeof(*workers));
idle_stoptime = time(0) + idle_timeout;
while(!abort_flag) {
char line[MPI_QUEUE_LINE_MAX];
if(time(0) > idle_stoptime) {
if(master) {
printf("mpi master: gave up after waiting %ds to receive a task.\n", idle_timeout);
} else {
printf("mpi master: gave up after waiting %ds to connect to %s port %d.\n", idle_timeout, host, port);
}
break;
}
if(!master) {
char working_dir[MPI_QUEUE_LINE_MAX];
master = link_connect(addr, port, idle_stoptime);
if(!master) {
sleep(5);
continue;
}
link_tune(master, LINK_TUNE_INTERACTIVE);
link_readline(master, line, sizeof(line), time(0) + active_timeout);
memset(working_dir, 0, MPI_QUEUE_LINE_MAX);
if(sscanf(line, "workdir %s", working_dir) == 1) {
MPI_Bcast(working_dir, MPI_QUEUE_LINE_MAX, MPI_CHAR, 0, MPI_COMM_WORLD);
} else {
link_close(master);
master = NULL;
continue;
}
}
if(link_readline(master, line, sizeof(line), time(0) + short_timeout)) {
struct mpi_queue_operation *op;
int jobid, mode;
INT64_T length;
char path[MPI_QUEUE_LINE_MAX];
op = NULL;
debug(D_MPI, "received: %s\n", line);
if(!strcmp(line, "get results")) {
struct mpi_queue_job *job;
debug(D_MPI, "results requested: %d available\n", list_size(complete_jobs));
link_putfstring(master, "num results %d\n", time(0) + active_timeout, list_size(complete_jobs));
while(list_size(complete_jobs)) {
job = list_pop_head(complete_jobs);
link_putfstring(master, "result %d %d %d %lld\n", time(0) + active_timeout, job->jobid, job->status, job->result, job->output_length);
if(job->output_length) {
link_write(master, job->output, job->output_length, time(0)+active_timeout);
}
mpi_queue_job_delete(job);
}
} else if(sscanf(line, "work %d %lld", &jobid, &length)) {
op = malloc(sizeof(*op));
memset(op, 0, sizeof(*op));
op->type = MPI_QUEUE_OP_WORK;
op->buffer_length = length+1;
op->buffer = malloc(length+1);
op->buffer[op->buffer_length] = 0;
link_read(master, op->buffer, length, time(0) + active_timeout);
op->result = -1;
} else if(sscanf(line, "stat %d %s", &jobid, path) == 2) {
op = malloc(sizeof(*op));
memset(op, 0, sizeof(*op));
op->type = MPI_QUEUE_OP_STAT;
sprintf(op->args, "%s", path);
op->result = -1;
} else if(sscanf(line, "unlink %d %s", &jobid, path) == 2) {
op = malloc(sizeof(*op));
memset(op, 0, sizeof(*op));
op->type = MPI_QUEUE_OP_UNLINK;
sprintf(op->args, "%s", path);
op->result = -1;
} else if(sscanf(line, "mkdir %d %s %o", &jobid, path, &mode) == 3) {
op = malloc(sizeof(*op));
memset(op, 0, sizeof(*op));
op->type = MPI_QUEUE_OP_MKDIR;
sprintf(op->args, "%s %o", path, mode);
op->result = -1;
} else if(sscanf(line, "close %d", &jobid) == 1) {
op = malloc(sizeof(*op));
memset(op, 0, sizeof(*op));
op->type = MPI_QUEUE_OP_CLOSE;
op->result = -1;
// } else if(sscanf(line, "symlink %d %s %s", &jobid, path, filename) == 3) {
// } else if(sscanf(line, "put %d %s %lld %o", &jobid, filename, &length, &mode) == 4) {
// } else if(sscanf(line, "rget %d %s", &jobid, filename) == 2) {
// } else if(sscanf(line, "get %d %s", &jobid, filename) == 2) {
// } else if(sscanf(line, "thirdget %d %d %s %[^\n]", &jobid, &mode, filename, path) == 4) {
// } else if(sscanf(line, "thirdput %d %d %s %[^\n]", &jobid, &mode, filename, path) == 4) {
} else if(!strcmp(line, "exit")) {
break;
} else {
abort_flag = 1;
continue;
}
if(op) {
struct mpi_queue_job *job;
job = itable_lookup(active_jobs, jobid);
if(!job) {
job = itable_lookup(waiting_jobs, jobid);
}
if(!job) {
job = malloc(sizeof(*job));
memset(job, 0, sizeof(*job));
job->jobid = jobid;
job->operations = list_create();
job->status = MPI_QUEUE_JOB_WAITING;
job->worker_rank = -1;
itable_insert(waiting_jobs, jobid, job);
}
list_push_tail(job->operations, op);
}
idle_stoptime = time(0) + idle_timeout;
} else {
link_close(master);
master = 0;
sleep(5);
}
int num_waiting_jobs = itable_size(waiting_jobs);
int num_unvisited_jobs = itable_size(active_jobs);
for(i = 1; i < num_workers && (num_unvisited_jobs > 0 || num_waiting_jobs > 0); i++) {
struct mpi_queue_job *job;
struct mpi_queue_operation *op;
int flag = 0;
UINT64_T jobid;
if(!workers[i]) {
if(num_waiting_jobs) {
itable_firstkey(waiting_jobs);
itable_nextkey(waiting_jobs, &jobid, (void **)&job);
itable_remove(waiting_jobs, jobid);
itable_insert(active_jobs, jobid, job);
workers[i] = job;
num_waiting_jobs--;
job->worker_rank = i;
job->status = MPI_QUEUE_JOB_READY;
} else {
continue;
}
} else {
num_unvisited_jobs--;
if(workers[i]->status == MPI_QUEUE_JOB_BUSY) {
MPI_Test(&workers[i]->request, &flag, &workers[i]->mpi_status);
if(flag) {
op = list_pop_head(workers[i]->operations);
if(op->output_length) {
op->output_buffer = malloc(op->output_length);
MPI_Recv(op->output_buffer, op->output_length, MPI_BYTE, workers[i]->worker_rank, 0, MPI_COMM_WORLD, &workers[i]->mpi_status);
}
workers[i]->status = MPI_QUEUE_JOB_READY;
if(op->type == MPI_QUEUE_OP_WORK || op->result < 0) {
if(workers[i]->output)
free(workers[i]->output);
workers[i]->output = op->output_buffer;
op->output_buffer = NULL;
workers[i]->output_length = op->output_length;
workers[i]->result = op->result;
if(op->result < 0) {
workers[i]->status = MPI_QUEUE_JOB_FAILED | op->type;
op->type = MPI_QUEUE_OP_CLOSE;
list_push_head(workers[i]->operations, op);
op = NULL;
}
}
if(op) {
if(op->buffer)
free(op->buffer);
if(op->output_buffer)
free(op->output_buffer);
free(op);
}
}
}
}
if( workers[i]->status != MPI_QUEUE_JOB_BUSY && list_size(workers[i]->operations)) {
op = list_peek_head(workers[i]->operations);
if(op->type == MPI_QUEUE_OP_CLOSE) {
itable_remove(active_jobs, workers[i]->jobid);
list_push_tail(complete_jobs, workers[i]);
if(!(workers[i]->status & MPI_QUEUE_JOB_FAILED))
workers[i]->status = MPI_QUEUE_JOB_COMPLETE;
workers[i] = NULL;
i--;
continue;
}
MPI_Send(op, sizeof(*op), MPI_BYTE, workers[i]->worker_rank, 0, MPI_COMM_WORLD);
if(op->buffer_length) {
MPI_Send(op->buffer, op->buffer_length, MPI_BYTE, workers[i]->worker_rank, 0, MPI_COMM_WORLD);
free(op->buffer);
op->buffer_length = 0;
op->buffer = NULL;
}
MPI_Irecv(op, sizeof(*op), MPI_BYTE, workers[i]->worker_rank, 0, MPI_COMM_WORLD, &workers[i]->request);
workers[i]->status = MPI_QUEUE_JOB_BUSY;
}
}
}
/** Clean up waiting & complete jobs, send Exit commands to each worker */
if(!master) {
// If the master link hasn't been set up yet
// the workers will be waiting for the working directory
char line[MPI_QUEUE_LINE_MAX];
memset(line, 0, MPI_QUEUE_LINE_MAX);
MPI_Bcast(line, MPI_QUEUE_LINE_MAX, MPI_CHAR, 0, MPI_COMM_WORLD);
} else {
link_close(master);
}
for(i = 1; i < num_workers; i++) {
struct mpi_queue_operation *op, close;
memset(&close, 0, sizeof(close));
close.type = MPI_QUEUE_OP_EXIT;
if(workers[i]) {
if(workers[i]->status == MPI_QUEUE_JOB_BUSY) {
MPI_Wait(&workers[i]->request, &workers[i]->mpi_status);
op = list_peek_head(workers[i]->operations);
if(op->output_length) {
op->output_buffer = malloc(op->output_length);
MPI_Recv(op->output_buffer, op->output_length, MPI_BYTE, workers[i]->worker_rank, 0, MPI_COMM_WORLD, &workers[i]->mpi_status);
}
}
itable_remove(active_jobs, workers[i]->jobid);
list_push_tail(complete_jobs, workers[i]);
}
MPI_Send(&close, sizeof(close), MPI_BYTE, i, 0, MPI_COMM_WORLD);
}
itable_firstkey(waiting_jobs);
while(itable_size(waiting_jobs)) {
struct mpi_queue_job *job;
UINT64_T jobid;
itable_nextkey(waiting_jobs, &jobid, (void **)&job);
itable_remove(waiting_jobs, jobid);
list_push_tail(complete_jobs, job);
}
while(list_size(complete_jobs)) {
mpi_queue_job_delete(list_pop_head(complete_jobs));
}
MPI_Finalize();
return abort_flag;
}
