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|
/*
* im-sandbox.c
*
* Sandbox for indexing
*
* Copyright © 2012-2021 Deutsches Elektronen-Synchrotron DESY,
* a research centre of the Helmholtz Association.
* Copyright © 2012 Richard Kirian
* Copyright © 2012 Lorenzo Galli
*
* Authors:
* 2010-2020 Thomas White <taw@physics.org>
* 2014 Valerio Mariani
* 2011 Richard Kirian
* 2012 Lorenzo Galli
* 2012 Chunhong Yoon
* 2017 Stijn de Graaf
*
* This file is part of CrystFEL.
*
* CrystFEL is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* CrystFEL is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CrystFEL. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdarg.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <getopt.h>
#include <pthread.h>
#include <sys/wait.h>
#include <fcntl.h>
#include <signal.h>
#include <sys/stat.h>
#include <assert.h>
#include <sys/mman.h>
#include <semaphore.h>
#ifdef HAVE_CLOCK_GETTIME
#include <time.h>
#else
#include <sys/time.h>
#endif
#include "im-sandbox.h"
#include "process_image.h"
#include "time-accounts.h"
#include "im-zmq.h"
struct sandbox
{
int n_processed_last_stats;
time_t t_last_stats;
/* Processing timeout in seconds. After this long without responding
* to a ping, the worker will be killed. After 3 times this long
* working on one image, even with ping responses, a warning will be
* shown to the user. */
int timeout;
struct index_args *iargs;
/* Worker processes */
int n_proc;
pid_t *pids;
int *running;
time_t *last_response;
int last_ping[MAX_NUM_WORKERS];
int profile; /* Whether to do wall-clock time profiling */
/* Streams to read from (NB not the same indices as the above) */
int n_read;
FILE **fhs;
int *fds;
int serial;
struct sb_shm *shared;
sem_t *queue_sem;
const char *tmpdir;
/* ZMQ mode */
int zmq;
const char *zmq_address;
char **zmq_subscriptions;
int n_zmq_subscriptions;
const char *zmq_request;
/* Final output */
Stream *stream;
};
struct get_pattern_ctx
{
FILE *fh;
int use_basename;
const DataTemplate *dtempl;
const char *prefix;
char *filename;
char **events;
int n_events;
int event_index;
};
#ifdef HAVE_CLOCK_GETTIME
static time_t get_monotonic_seconds()
{
struct timespec tp;
clock_gettime(CLOCK_MONOTONIC, &tp);
return tp.tv_sec;
}
#else
/* Fallback version of the above. The time according to gettimeofday() is not
* monotonic, so measuring intervals based on it will screw up if there's a
* timezone change (e.g. daylight savings) while the program is running. */
static time_t get_monotonic_seconds()
{
struct timeval tp;
gettimeofday(&tp, NULL);
return tp.tv_sec;
}
#endif
static void stamp_response(struct sandbox *sb, int n)
{
sb->last_response[n] = get_monotonic_seconds();
sb->last_ping[n] = sb->shared->pings[n];
}
static void check_hung_workers(struct sandbox *sb)
{
int i;
time_t tnow = get_monotonic_seconds();
for ( i=0; i<sb->n_proc; i++ ) {
if ( !sb->running[i] ) continue;
if ( sb->shared->pings[i] != sb->last_ping[i] ) {
stamp_response(sb, i);
}
if ( tnow - sb->last_response[i] > sb->timeout ) {
STATUS("Worker %i did not respond for %i seconds - "
"sending it SIGKILL.\n", i, sb->timeout);
kill(sb->pids[i], SIGKILL);
stamp_response(sb, i);
}
if ( tnow - sb->shared->time_last_start[i] > sb->timeout*3 ) {
if ( !sb->shared->warned_long_running[i] ) {
STATUS("Worker %i has been working on one "
"frame for more than %i seconds (just "
"for info).\n", i, sb->timeout);
STATUS("Event ID is: %s\n",
sb->shared->last_ev[i]);
STATUS("Task ID is: %s\n",
sb->shared->last_task[i]);
sb->shared->warned_long_running[i] = 1;
}
}
}
}
static char *read_prefixed_filename(struct get_pattern_ctx *gpctx,
char **event)
{
char* line;
*event = NULL;
line = malloc(1024);
if ( line == NULL ) return NULL;
do {
if ( fgets(line, 1023, gpctx->fh) == NULL )
{
if ( !feof(gpctx->fh) ) {
ERROR("Input file read error.\n");
}
free(line);
return NULL;
}
chomp(line);
} while ( line[0] == '\0' );
/* Chop off event ID */
size_t n = strlen(line);
while ( line[n] != ' ' && n > 2 ) n--;
if ( n != 2 ) {
/* Event descriptor must contain "//".
* If it doesn't, assume the filename just contains a
* space. */
if ( strstr(&line[n], "//") != NULL ) {
line[n] = '\0';
*event = strdup(&line[n+1]);
}
} /* else no spaces at all */
if ( gpctx->use_basename ) {
char *tmp;
tmp = safe_basename(line);
free(line);
line = tmp;
}
/* Add prefix */
if ( gpctx->prefix != NULL ) {
char *tmp;
size_t len = strlen(line) + strlen(gpctx->prefix) + 1;
tmp = malloc(len);
if ( tmp == NULL ) {
ERROR("Couldn't allocate memory for filename\n");
return NULL;
}
strcpy(tmp, gpctx->prefix);
strcat(tmp, line);
free(line);
line = tmp;
}
return line;
}
/* Return 0 for "no more" */
static int get_pattern(struct get_pattern_ctx *gpctx,
char **pfilename, char **pevent)
{
char *filename;
char *evstr;
/* Is an event available already? */
if ( (gpctx->events != NULL)
&& (gpctx->event_index < gpctx->n_events) )
{
*pfilename = gpctx->filename;
*pevent = gpctx->events[gpctx->event_index++];
return 1;
}
do {
/* No events in list. Time to top it up */
filename = read_prefixed_filename(gpctx, &evstr);
/* Nothing left in file -> we're done */
if ( filename == NULL ) return 0;
/* Does the line from the input file contain an event ID?
* If so, just send it straight back. */
if ( evstr != NULL ) {
*pfilename = filename;
*pevent = evstr;
return 1;
}
/* We got a filename, but no event. Attempt to expand... */
free(gpctx->events); /* Free the old list.
* NB The actual strings were freed
* by fill_queue */
gpctx->events = image_expand_frames(gpctx->dtempl, filename,
&gpctx->n_events);
if ( gpctx->events == NULL ) {
ERROR("Failed to get event list from %s.\n",
filename);
}
} while ( gpctx->events == NULL );
/* Save filename for next time */
free(gpctx->filename);
gpctx->filename = filename;
gpctx->event_index = 0;
*pfilename = gpctx->filename;
*pevent = gpctx->events[gpctx->event_index++];
return 1;
}
static void shuffle_events(struct sb_shm *sb_shared)
{
int i;
for ( i=1; i<sb_shared->n_events; i++ ) {
memcpy(sb_shared->queue[i-1], sb_shared->queue[i], MAX_EV_LEN);
}
sb_shared->n_events--;
}
void set_last_task(char *lt, const char *task)
{
if ( lt == NULL ) return;
assert(strlen(task) < MAX_TASK_LEN-1);
strcpy(lt, task);
}
static int run_work(const struct index_args *iargs, Stream *st,
int cookie, const char *tmpdir, struct sandbox *sb)
{
int allDone = 0;
TimeAccounts *taccs;
struct im_zmq *zmqstuff = NULL;
/* Connect via ZMQ */
if ( sb->zmq ) {
zmqstuff = im_zmq_connect(sb->zmq_address,
sb->zmq_subscriptions,
sb->n_zmq_subscriptions,
sb->zmq_request);
if ( zmqstuff == NULL ) {
ERROR("ZMQ setup failed.\n");
return 1;
}
}
taccs = time_accounts_init();
while ( !allDone ) {
struct pattern_args pargs;
int ser;
char *line;
size_t len;
int i;
char *event_str = NULL;
char *ser_str = NULL;
int ok = 1;
/* Wait until an event is ready */
time_accounts_set(taccs, TACC_EVENTWAIT);
set_last_task(sb->shared->last_task[cookie], "wait_event");
if ( sem_wait(sb->queue_sem) != 0 ) {
ERROR("Failed to wait on queue semaphore: %s\n",
strerror(errno));
}
/* Get the event from the queue */
set_last_task(sb->shared->last_task[cookie], "read_queue");
pthread_mutex_lock(&sb->shared->queue_lock);
if ( ((sb->shared->n_events==0) && (sb->shared->no_more))
|| (sb->shared->should_shutdown) )
{
/* Queue is empty and no more are coming,
* or another process has initiated a shutdown.
* Either way, it's time to get out of here. */
pthread_mutex_unlock(&sb->shared->queue_lock);
allDone = 1;
continue;
}
if ( sb->shared->n_events == 0 ) {
ERROR("Got the semaphore, but no events in queue!\n");
ERROR("no_more = %i\n", sb->shared->no_more);
pthread_mutex_unlock(&sb->shared->queue_lock);
allDone = 1;
continue;
}
line = strdup(sb->shared->queue[0]);
len = strlen(line);
assert(len > 1);
for ( i=len-1; i>0; i-- ) {
if ( line[i] == ' ' ) {
line[i] = '\0';
ser_str = &line[i+1];
break;
}
}
len = strlen(line);
assert(len > 1);
for ( i=len-1; i>0; i-- ) {
if ( line[i] == ' ' ) {
line[i] = '\0';
event_str = &line[i+1];
break;
}
}
if ( (ser_str != NULL) && (event_str != NULL) ) {
if ( sscanf(ser_str, "%i", &ser) != 1 ) {
STATUS("Invalid serial number '%s'\n",
ser_str);
ok = 0;
}
}
if ( !ok ) {
STATUS("Invalid event string '%s'\n",
sb->shared->queue[0]);
ok = 0;
}
memcpy(sb->shared->last_ev[cookie], sb->shared->queue[0],
MAX_EV_LEN);
shuffle_events(sb->shared);
pthread_mutex_unlock(&sb->shared->queue_lock);
if ( !ok ) continue;
pargs.filename = strdup(line);
pargs.event = strdup(event_str);
free(line);
if ( !sb->zmq ) {
pargs.zmq_data = NULL;
pargs.zmq_data_size = 0;
} else {
do {
pargs.zmq_data = im_zmq_fetch(zmqstuff,
&pargs.zmq_data_size);
} while ( pargs.zmq_data_size < 15 );
/* The filename/event, which will be 'fake' values in
* this case, still came via the event queue. More
* importantly, the event queue gave us a unique
* serial number for this image. */
}
sb->shared->time_last_start[cookie] = get_monotonic_seconds();
process_image(iargs, &pargs, st, cookie, tmpdir, ser,
sb->shared, taccs, sb->shared->last_task[cookie]);
/* pargs.zmq_data will be copied into the image structure, so
* that it can be queried for "header" values etc. It will
* eventually be freed by image_free() under process_image() */
}
im_zmq_shutdown(zmqstuff);
time_accounts_set(taccs, TACC_FINALCLEANUP);
cleanup_indexing(iargs->ipriv);
cell_free(iargs->cell);
if ( sb->profile ) time_accounts_print(taccs);
time_accounts_free(taccs);
return 0;
}
static ssize_t lwrite(int fd, const char *a)
{
size_t l = strlen(a);
return write(fd, a, l);
}
static int pump_chunk(FILE *fh, int ofd)
{
int chunk_started = 0;
do {
char line[1024];
char *rval;
rval = fgets(line, 1024, fh);
if ( rval == NULL ) {
if ( feof(fh) ) {
/* Whoops, connection lost */
if ( chunk_started ) {
ERROR("EOF during chunk!\n");
lwrite(ofd, "Unfinished chunk!\n");
lwrite(ofd, STREAM_CHUNK_END_MARKER"\n");
} /* else normal end of output */
return 1;
}
ERROR("fgets() failed: %s\n", strerror(errno));
if ( errno != EINTR ) return 1;
}
if ( strcmp(line, "FLUSH\n") == 0 ) break;
lwrite(ofd, line);
if ( strcmp(line, STREAM_CHUNK_END_MARKER"\n") == 0 ) break;
} while ( 1 );
return 0;
}
/* Add an fd to the list of pipes to be read from */
static void add_pipe(struct sandbox *sb, int fd)
{
int *fds_new;
FILE **fhs_new;
int slot;
fds_new = realloc(sb->fds, (sb->n_read+1)*sizeof(int));
if ( fds_new == NULL ) {
ERROR("Failed to allocate memory for new pipe.\n");
return;
}
fhs_new = realloc(sb->fhs, (sb->n_read+1)*sizeof(FILE *));
if ( fhs_new == NULL ) {
ERROR("Failed to allocate memory for new FH.\n");
free(fds_new);
return;
}
sb->fds = fds_new;
sb->fhs = fhs_new;
slot = sb->n_read;
sb->fds[slot] = fd;
sb->fhs[slot] = fdopen(fd, "r");
if ( sb->fhs[slot] == NULL ) {
ERROR("Couldn't fdopen() stream!\n");
return;
}
sb->n_read++;
}
static void remove_pipe(struct sandbox *sb, int d)
{
int i;
fclose(sb->fhs[d]);
for ( i=d; i<sb->n_read; i++ ) {
if ( i < sb->n_read-1 ) {
sb->fds[i] = sb->fds[i+1];
sb->fhs[i] = sb->fhs[i+1];
} /* else don't bother */
}
sb->n_read--;
/* We don't bother shrinking the arrays */
}
static void try_read(struct sandbox *sb, TimeAccounts *taccs)
{
int r, i;
struct timeval tv;
fd_set fds;
int fdmax;
const int ofd = stream_get_fd(sb->stream);
time_accounts_set(taccs, TACC_SELECT);
tv.tv_sec = 0;
tv.tv_usec = 500000;
FD_ZERO(&fds);
fdmax = 0;
for ( i=0; i<sb->n_read; i++ ) {
int fd;
fd = sb->fds[i];
FD_SET(fd, &fds);
if ( fd > fdmax ) fdmax = fd;
}
r = select(fdmax+1, &fds, NULL, NULL, &tv);
if ( r == -1 ) {
if ( errno != EINTR ) {
ERROR("select() failed: %s\n", strerror(errno));
} /* Otherwise no big deal */
return;
}
for ( i=0; i<sb->n_read; i++ ) {
if ( !FD_ISSET(sb->fds[i], &fds) ) {
continue;
}
/* If the chunk cannot be read, assume the connection
* is broken and that the process will die soon. */
time_accounts_set(taccs, TACC_STREAMREAD);
if ( pump_chunk(sb->fhs[i], ofd) ) {
remove_pipe(sb, i);
}
}
}
static void start_worker_process(struct sandbox *sb, int slot)
{
pid_t p;
int stream_pipe[2];
if ( pipe(stream_pipe) == - 1 ) {
ERROR("pipe() failed!\n");
return;
}
sb->shared->pings[slot] = 0;
sb->last_ping[slot] = 0;
sb->shared->time_last_start[slot] = get_monotonic_seconds();
sb->shared->warned_long_running[slot] = 0;
p = fork();
if ( p == -1 ) {
ERROR("fork() failed!\n");
return;
}
if ( p == 0 ) {
Stream *st;
struct sigaction sa;
int r;
char *tmp;
struct stat s;
size_t ll;
int i;
/* First, disconnect the signal handlers */
sa.sa_flags = 0;
sigemptyset(&sa.sa_mask);
sa.sa_handler = SIG_DFL;
r = sigaction(SIGCHLD, &sa, NULL);
if ( r == -1 ) {
ERROR("Failed to set signal handler!\n");
exit(1);
}
r = sigaction(SIGINT, &sa, NULL);
if ( r == -1 ) {
ERROR("Failed to set signal handler!\n");
exit(1);
}
r = sigaction(SIGQUIT, &sa, NULL);
if ( r == -1 ) {
ERROR("Failed to set signal handler!\n");
exit(1);
}
ll = 64 + strlen(sb->tmpdir);
tmp = malloc(ll);
if ( tmp == NULL ) {
ERROR("Failed to allocate temporary dir\n");
exit(1);
}
snprintf(tmp, 63, "%s/worker.%i", sb->tmpdir, slot);
if ( stat(tmp, &s) == -1 ) {
if ( errno != ENOENT ) {
ERROR("Failed to stat temporary folder.\n");
exit(1);
}
r = mkdir(tmp, S_IRWXU);
if ( r ) {
ERROR("Failed to create temporary folder: %s\n",
strerror(errno));
exit(1);
}
}
/* Free resources which will not be needed by worker */
free(sb->pids);
for ( i=0; i<sb->n_read; i++ ) {
fclose(sb->fhs[i]);
}
free(sb->fhs);
free(sb->fds);
free(sb->running);
/* Not freed because it's not worth passing them down just for
* this purpose: event list file handle,
* main output stream handle
* original temp dir name (without indexamajig.XX)
* prefix
*/
st = stream_open_fd_for_write(stream_pipe[1], sb->iargs->dtempl);
r = run_work(sb->iargs, st, slot, tmp, sb);
stream_close(st);
free(tmp);
munmap(sb->shared, sizeof(struct sb_shm));
free(sb);
exit(r);
}
/* Parent process gets the 'write' end of the filename pipe
* and the 'read' end of the result pipe. */
sb->pids[slot] = p;
sb->running[slot] = 1;
stamp_response(sb, slot);
add_pipe(sb, stream_pipe[0]);
close(stream_pipe[1]);
}
static void handle_zombie(struct sandbox *sb, int respawn)
{
int i;
for ( i=0; i<sb->n_proc; i++ ) {
int status, p;
if ( !sb->running[i] ) continue;
p = waitpid(sb->pids[i], &status, WNOHANG);
if ( p == -1 ) {
ERROR("waitpid() failed.\n");
continue;
}
if ( p == sb->pids[i] ) {
sb->running[i] = 0;
if ( WIFEXITED(status) ) {
continue;
}
if ( WIFSIGNALED(status) ) {
if ( (WTERMSIG(status) == SIGINT)
|| (WTERMSIG(status) == SIGQUIT) ) continue;
STATUS("Worker %i was killed by signal %i\n",
i, WTERMSIG(status));
STATUS("Event ID was: %s\n",
sb->shared->last_ev[i]);
STATUS("Task ID was: %s\n",
sb->shared->last_task[i]);
if ( respawn ) start_worker_process(sb, i);
}
}
}
}
static int setup_shm(struct sandbox *sb)
{
pthread_mutexattr_t attr;
sb->shared = mmap(NULL, sizeof(struct sb_shm), PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_ANON, -1, 0);
if ( sb->shared == MAP_FAILED ) {
ERROR("SHM setup failed: %s\n", strerror(errno));
return 1;
}
if ( pthread_mutexattr_init(&attr) ) {
ERROR("Failed to initialise mutex attr.\n");
return 1;
}
if ( pthread_mutexattr_setpshared(&attr, PTHREAD_PROCESS_SHARED) ) {
ERROR("Failed to set process shared attribute.\n");
return 1;
}
if ( pthread_mutex_init(&sb->shared->term_lock, &attr) ) {
ERROR("Terminal lock setup failed.\n");
return 1;
}
if ( pthread_mutex_init(&sb->shared->queue_lock, &attr) ) {
ERROR("Queue lock setup failed.\n");
return 1;
}
if ( pthread_mutex_init(&sb->shared->totals_lock, &attr) ) {
ERROR("Totals lock setup failed.\n");
return 1;
}
pthread_mutexattr_destroy(&attr);
return 0;
}
/* Assumes the caller is already holding queue_lock! */
static int fill_queue(struct get_pattern_ctx *gpctx, struct sandbox *sb)
{
while ( sb->shared->n_events < QUEUE_SIZE ) {
char *filename;
char *evstr;
if ( sb->zmq ) {
/* These values will be passed down to process_image,
* but ignored. The 'real' filename, which is still a
* 'fake' filename - only for accounting purposes - will
* be generated by image_read_data_block(). */
filename = "ZMQdata";
evstr = strdup("//");
} else {
if ( !get_pattern(gpctx, &filename, &evstr) ) return 1;
}
memset(sb->shared->queue[sb->shared->n_events], 0, MAX_EV_LEN);
snprintf(sb->shared->queue[sb->shared->n_events++], MAX_EV_LEN,
"%s %s %i", filename, evstr, sb->serial++);
sem_post(sb->queue_sem);
free(evstr);
}
return 0;
}
volatile sig_atomic_t at_zombies = 0;
volatile sig_atomic_t at_interrupt = 0;
static void sigchld_handler(int sig, siginfo_t *si, void *uc_v)
{
at_zombies = 1;
}
static void sigint_handler(int sig, siginfo_t *si, void *uc_v)
{
at_interrupt = 1;
}
static void check_signals(struct sandbox *sb, const char *semname_q,
int respawn)
{
if ( at_zombies ) {
at_zombies = 0;
handle_zombie(sb, respawn);
}
if ( at_interrupt ) {
sem_unlink(semname_q);
exit(0);
}
}
static void try_status(struct sandbox *sb, int final)
{
int r;
int n_proc_this;
time_t tNow;
time_t time_this;
const char *finalstr;
char persec[64];
tNow = get_monotonic_seconds();
time_this = tNow - sb->t_last_stats;
if ( !final && (time_this < 5) ) return;
n_proc_this = sb->shared->n_processed - sb->n_processed_last_stats;
r = pthread_mutex_trylock(&sb->shared->term_lock);
if ( r ) return; /* No lock -> don't bother */
finalstr = final ? "Final: " : "";
if ( final ) {
finalstr = "Final: ";
persec[0] = '\0';
} else {
finalstr = "";
snprintf(persec, 64, ", %.1f images/sec",
(double)n_proc_this/time_this);
}
STATUS("%s%i images processed, %i hits (%.1f%%), "
"%i indexable (%.1f%% of hits, %.1f%% overall), "
"%i crystals%s.\n",
finalstr, sb->shared->n_processed,
sb->shared->n_hits,
100.0 * sb->shared->n_hits / sb->shared->n_processed,
sb->shared->n_hadcrystals,
100.0 * sb->shared->n_hadcrystals / sb->shared->n_hits,
100.0 * sb->shared->n_hadcrystals / sb->shared->n_processed,
sb->shared->n_crystals, persec);
sb->n_processed_last_stats = sb->shared->n_processed;
sb->t_last_stats = tNow;
pthread_mutex_unlock(&sb->shared->term_lock);
}
static void delete_temporary_folder(const char *tmpdir, int n_proc)
{
int slot;
size_t len;
char *workerdir;
char *path;
/* List of files which it's safe to delete */
char *files[] = {"gmon.out", "mosflm.lp", "SUMMARY", "XDS.INP",
"xfel_001.img", "xfel_001.spt", "xfel.drx",
"xfel.felix", "xfel.gve", "xfel.ini", "xfel.log",
"IDXREF.LP", "SPOT.XDS", "xfel.newmat", "XPARM.XDS"};
/* Number of items in the above list */
int n_files = 15;
if ( n_proc > 99999 ) return; /* Paranoia */
len = strlen(tmpdir);
workerdir = calloc(len+32, 1);
path = calloc(len+64, 1);
if ( (workerdir == NULL) || (path == NULL) ) return;
snprintf(path, 127, "%s/mosflm.lp", tmpdir);
unlink(path);
snprintf(path, 127, "%s/SUMMARY", tmpdir);
unlink(path);
for ( slot=0; slot<n_proc; slot++ ) {
struct stat s;
int i;
snprintf(workerdir, 63, "%s/worker.%i", tmpdir, slot);
if ( stat(workerdir, &s) == -1 ) continue;
for ( i=0; i<n_files; i++ ) {
snprintf(path, 127, "%s/%s", workerdir, files[i]);
unlink(path);
}
if ( rmdir(workerdir) ) {
ERROR("Failed to delete worker temporary folder: %s\n",
strerror(errno));
}
}
if ( rmdir(tmpdir) ) {
ERROR("Failed to delete temporary folder: %s\n", strerror(errno));
}
free(workerdir);
free(path);
}
char *create_tempdir(const char *temp_location)
{
char *tmpdir;
size_t ll;
struct stat s;
if ( temp_location == NULL ) {
temp_location = "";
}
ll = 64+strlen(temp_location);
tmpdir = malloc(ll);
if ( tmpdir == NULL ) {
ERROR("Failed to allocate temporary directory name\n");
return NULL;
}
snprintf(tmpdir, ll, "%s/indexamajig.%i", temp_location, getpid());
if ( stat(tmpdir, &s) == -1 ) {
int r;
if ( errno != ENOENT ) {
ERROR("Failed to stat temporary folder.\n");
return NULL;
}
r = mkdir(tmpdir, S_IRWXU);
if ( r ) {
ERROR("Failed to create temporary folder: %s\n",
strerror(errno));
return NULL;
}
}
return tmpdir;
}
/* Returns the number of frames processed (not necessarily indexed).
* If the return value is zero, something is probably wrong. */
int create_sandbox(struct index_args *iargs, int n_proc, char *prefix,
int config_basename, FILE *fh,
Stream *stream, const char *tmpdir, int serial_start,
const char *zmq_address, char **zmq_subscriptions,
int n_zmq_subscriptions, const char *zmq_request,
int timeout, int profile)
{
int i;
struct sandbox *sb;
char semname_q[64];
struct sigaction sa;
int r;
int allDone = 0;
TimeAccounts *taccs;
struct get_pattern_ctx gpctx;
if ( n_proc > MAX_NUM_WORKERS ) {
ERROR("Number of workers (%i) is too large. Using %i\n",
n_proc, MAX_NUM_WORKERS);
n_proc = MAX_NUM_WORKERS;
}
sb = calloc(1, sizeof(struct sandbox));
if ( sb == NULL ) {
ERROR("Couldn't allocate memory for sandbox.\n");
return 0;
}
sb->n_processed_last_stats = 0;
sb->t_last_stats = get_monotonic_seconds();
sb->n_proc = n_proc;
sb->iargs = iargs;
sb->serial = serial_start;
sb->tmpdir = tmpdir;
sb->profile = profile;
sb->timeout = timeout;
if ( zmq_address != NULL ) {
sb->zmq = 1;
sb->zmq_address = zmq_address;
sb->zmq_subscriptions = zmq_subscriptions;
sb->n_zmq_subscriptions = n_zmq_subscriptions;
sb->zmq_request = zmq_request;
} else {
sb->zmq = 0;
}
sb->fds = NULL;
sb->fhs = NULL;
sb->stream = stream;
gpctx.fh = fh;
gpctx.use_basename = config_basename;
gpctx.dtempl = iargs->dtempl;
gpctx.prefix = prefix;
gpctx.filename = NULL;
gpctx.events = NULL;
gpctx.event_index = 0;
if ( setup_shm(sb) ) {
ERROR("Failed to set up SHM.\n");
free(sb);
return 0;
}
sb->shared->n_processed = 0;
sb->shared->n_hits = 0;
sb->shared->n_hadcrystals = 0;
sb->shared->n_crystals = 0;
sb->shared->should_shutdown = 0;
/* Set up semaphore to control work queue */
snprintf(semname_q, 64, "indexamajig-q%i", getpid());
sb->queue_sem = sem_open(semname_q, O_CREAT | O_EXCL,
S_IRUSR | S_IWUSR, 0);
if ( sb->queue_sem == SEM_FAILED ) {
ERROR("Failed to create semaphore: %s\n", strerror(errno));
return 0;
}
sb->pids = calloc(n_proc, sizeof(pid_t));
sb->running = calloc(n_proc, sizeof(int));
sb->last_response = calloc(n_proc, sizeof(time_t));
if ( (sb->pids == NULL) || (sb->running == NULL)
|| (sb->last_response == NULL) )
{
ERROR("Couldn't allocate memory for PIDs.\n");
return 0;
}
/* Fill the queue */
pthread_mutex_lock(&sb->shared->queue_lock);
sb->shared->n_events = 0;
sb->shared->no_more = fill_queue(&gpctx, sb);
pthread_mutex_unlock(&sb->shared->queue_lock);
/* Fork the right number of times */
for ( i=0; i<n_proc; i++ ) {
start_worker_process(sb, i);
}
/* Set up signal handler to take action if any children die */
sa.sa_flags = SA_SIGINFO | SA_NOCLDSTOP | SA_RESTART;
sigemptyset(&sa.sa_mask);
sa.sa_sigaction = sigchld_handler;
r = sigaction(SIGCHLD, &sa, NULL);
if ( r == -1 ) {
ERROR("Failed to set signal handler!\n");
return 0;
}
/* Set up signal handler to clean up semaphore on exit */
sa.sa_flags = SA_SIGINFO | SA_NOCLDSTOP | SA_RESTART;
sigemptyset(&sa.sa_mask);
sa.sa_sigaction = sigint_handler;
r = sigaction(SIGINT, &sa, NULL);
if ( r == -1 ) {
ERROR("Failed to set signal handler!\n");
return 0;
}
r = sigaction(SIGQUIT, &sa, NULL);
if ( r == -1 ) {
ERROR("Failed to set signal handler!\n");
return 0;
}
taccs = time_accounts_init();
do {
/* Check for stream output from workers */
try_read(sb, taccs);
/* Check for interrupt or zombies */
time_accounts_set(taccs, TACC_SIGNALS);
check_signals(sb, semname_q, 1);
/* Check for hung workers */
check_hung_workers(sb);
/* Top up the queue if necessary */
time_accounts_set(taccs, TACC_QUEUETOPUP);
pthread_mutex_lock(&sb->shared->queue_lock);
if ( !sb->shared->no_more && (sb->shared->n_events < QUEUE_SIZE/2) ) {
if ( fill_queue(&gpctx, sb) ) sb->shared->no_more = 1;
}
pthread_mutex_unlock(&sb->shared->queue_lock);
/* Update progress */
time_accounts_set(taccs, TACC_STATUS);
try_status(sb, 0);
/* Have all the events been swallowed? */
time_accounts_set(taccs, TACC_ENDCHECK);
pthread_mutex_lock(&sb->shared->queue_lock);
if ( sb->shared->no_more && (sb->shared->n_events == 0) ) allDone = 1;
if ( sb->shared->should_shutdown ) {
/* Worker process requested immediate shutdown */
allDone = 1;
sb->shared->n_events = 0;
sb->shared->no_more = 1;
}
pthread_mutex_unlock(&sb->shared->queue_lock);
} while ( !allDone );
fclose(fh);
/* Indicate to the workers that we are finished, and wake them up one
* last time */
time_accounts_set(taccs, TACC_WAKEUP);
STATUS("Waiting for the last patterns to be processed...\n");
pthread_mutex_lock(&sb->shared->queue_lock);
sb->shared->no_more = 1;
pthread_mutex_unlock(&sb->shared->queue_lock);
for ( i=0; i<n_proc; i++ ) {
sem_post(sb->queue_sem);
}
for ( i=0; i<n_proc; i++ ) {
int status;
time_accounts_set(taccs, TACC_WAITPID);
while ( waitpid(sb->pids[i], &status, WNOHANG) == 0 ) {
time_accounts_set(taccs, TACC_STREAMREAD);
try_read(sb, taccs);
time_accounts_set(taccs, TACC_SIGNALS);
check_signals(sb, semname_q, 0);
check_hung_workers(sb);
time_accounts_set(taccs, TACC_STATUS);
try_status(sb, 0);
time_accounts_set(taccs, TACC_WAITPID);
}
/* If this worker died and got waited by the zombie handler,
* waitpid() returns -1 and the loop still exits. */
}
if ( profile ) time_accounts_print(taccs);
time_accounts_free(taccs);
sem_unlink(semname_q);
for ( i=0; i<sb->n_read; i++ ) {
fclose(sb->fhs[i]);
}
free(sb->fhs);
free(sb->fds);
free(sb->running);
free(sb->last_response);
free(sb->pids);
try_status(sb, 1);
r = (sb->shared->n_processed == 0);
if ( sb->shared->should_shutdown ) r = 1;
delete_temporary_folder(sb->tmpdir, n_proc);
munmap(sb->shared, sizeof(struct sb_shm));
free(sb);
return r;
}
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