/*
Task Spooler - a task queue system for the unix user
Copyright (C) 2007-2009 LluĂs Batlle i Rossell
Please find the license in the provided COPYING file.
*/
#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <sys/time.h>
#include <time.h>
#include "main.h"
/* The list will access them */
int busy_slots = 0;
int max_slots = 1;
struct Notify
{
int socket;
int jobid;
struct Notify *next;
};
/* Globals */
static struct Job *firstjob = 0;
static struct Job *first_finished_job = 0;
static int jobids = 0;
/* This is used for dependencies from jobs
* already out of the queue */
static int last_errorlevel = 0; /* Before the first job, let's consider
a good previous result */
/* We need this to handle well "-d" after a "-nf" run */
static int last_finished_jobid;
static struct Notify *first_notify = 0;
static struct Job * get_job(int jobid);
void notify_errorlevel(struct Job *p);
static void send_list_line(int s, const char * str)
{
struct msg m;
/* Message */
m.type = LIST_LINE;
m.u.size = strlen(str) + 1;
send_msg(s, &m);
/* Send the line */
send_bytes(s, str, m.u.size);
}
static void send_urgent_ok(int s)
{
struct msg m;
/* Message */
m.type = URGENT_OK;
send_msg(s, &m);
}
static void send_swap_jobs_ok(int s)
{
struct msg m;
/* Message */
m.type = SWAP_JOBS_OK;
send_msg(s, &m);
}
static struct Job * find_previous_job(const struct Job *final)
{
struct Job *p;
/* Show Queued or Running jobs */
p = firstjob;
while(p != 0)
{
if (p->next == final)
return p;
p = p->next;
}
return 0;
}
static struct Job * findjob(int jobid)
{
struct Job *p;
/* Show Queued or Running jobs */
p = firstjob;
while(p != 0)
{
if (p->jobid == jobid)
return p;
p = p->next;
}
return 0;
}
static struct Job * find_finished_job(int jobid)
{
struct Job *p;
/* Show Queued or Running jobs */
p = first_finished_job;
while(p != 0)
{
if (p->jobid == jobid)
return p;
p = p->next;
}
return 0;
}
static void add_notify_errorlevel_to(struct Job *job, int jobid)
{
int *p;
int newsize = (job->notify_errorlevel_to_size + 1)
* sizeof(int);
p = (int *) realloc(job->notify_errorlevel_to,
newsize);
if (p == 0)
error("Cannot allocate more memory for notify_errorlist_to for jobid %i,"
" having already %i elements",
job->jobid, job->notify_errorlevel_to_size);
job->notify_errorlevel_to = p;
job->notify_errorlevel_to_size += 1;
job->notify_errorlevel_to[job->notify_errorlevel_to_size - 1] = jobid;
}
void s_mark_job_running(int jobid)
{
struct Job *p;
p = findjob(jobid);
if (!p)
error("Cannot mark the jobid %i RUNNING.", jobid);
p->state = RUNNING;
}
const char * jstate2string(enum Jobstate s)
{
const char * jobstate;
switch(s)
{
case QUEUED:
jobstate = "queued";
break;
case RUNNING:
jobstate = "running";
break;
case FINISHED:
jobstate = "finished";
break;
case SKIPPED:
jobstate = "skipped";
break;
}
return jobstate;
}
void s_list(int s)
{
struct Job *p;
char *buffer;
/* Times: 0.00/0.00/0.00 - 4+4+4+2 = 14*/
buffer = joblist_headers();
send_list_line(s,buffer);
free(buffer);
/* Show Queued or Running jobs */
p = firstjob;
while(p != 0)
{
buffer = joblist_line(p);
send_list_line(s,buffer);
free(buffer);
p = p->next;
}
p = first_finished_job;
/* Show Finished jobs */
while(p != 0)
{
buffer = joblist_line(p);
send_list_line(s,buffer);
free(buffer);
p = p->next;
}
}
static struct Job * newjobptr()
{
struct Job *p;
if (firstjob == 0)
{
firstjob = (struct Job *) malloc(sizeof(*firstjob));
firstjob->next = 0;
firstjob->output_filename = 0;
firstjob->command = 0;
return firstjob;
}
p = firstjob;
while(p->next != 0)
p = p->next;
p->next = (struct Job *) malloc(sizeof(*p));
p->next->next = 0;
p->next->output_filename = 0;
p->next->command = 0;
return p->next;
}
/* Returns -1 if no last job id found */
static int find_last_jobid_in_queue(int neglect_jobid)
{
struct Job *p;
int last_jobid = -1;
p = firstjob;
while(p != 0)
{
if (p->jobid != neglect_jobid &&
p->jobid > last_jobid)
last_jobid = p->jobid;
p = p->next;
}
return last_jobid;
}
/* Returns -1 if no last job id found */
static int find_last_stored_jobid_finished()
{
struct Job *p;
int last_jobid = -1;
p = first_finished_job;
while(p != 0)
{
if (p->jobid > last_jobid)
last_jobid = p->jobid;
p = p->next;
}
return last_jobid;
}
/* Returns job id or -1 on error */
int s_newjob(int s, struct msg *m)
{
struct Job *p;
int res;
p = newjobptr();
p->jobid = jobids++;
p->state = QUEUED;
p->store_output = m->u.newjob.store_output;
p->should_keep_finished = m->u.newjob.should_keep_finished;
p->notify_errorlevel_to = 0;
p->notify_errorlevel_to_size = 0;
p->do_depend = m->u.newjob.do_depend;
p->depend_on = -1; /* By default. May be overriden in the next conditions */
if (m->u.newjob.do_depend == 1)
{
/* Depend on the last queued job. */
/* As we already have 'p' in the queue,
* neglect it during the find_last_jobid_in_queue() */
if (m->u.newjob.depend_on == -1)
{
p->depend_on = find_last_jobid_in_queue(p->jobid);
/* We don't trust the last jobid in the queue (running or queued)
* if it's not the last added job. In that case, let
* the next control flow handle it as if it could not
* do_depend on any still queued job. */
if (last_finished_jobid > p->depend_on)
p->depend_on = -1;
/* If it's queued still without result, let it know
* its result to p when it finishes. */
if (p->depend_on != -1)
{
struct Job *depended_job;
depended_job = findjob(p->depend_on);
if (depended_job != 0)
add_notify_errorlevel_to(depended_job, p->jobid);
else
warning("The jobid %i is queued to do_depend on the jobid %i"
" suddenly non existant in the queue", p->jobid,
p->depend_on);
}
else /* Otherwise take the finished job, or the last_errorlevel */
{
if (m->u.newjob.depend_on == -1)
{
int ljobid = find_last_stored_jobid_finished();
/* If we have a newer result stored, use it */
if (last_finished_jobid < ljobid)
{
struct Job *parent;
parent = find_finished_job(ljobid);
if (!parent)
error("jobid %i suddenly disappeared from the finished list",
ljobid);
p->dependency_errorlevel = parent->result.errorlevel;
}
else
p->dependency_errorlevel = last_errorlevel;
}
}
}
else
{
/* The user decided what's the job this new job depends on */
struct Job *depended_job;
p->depend_on = m->u.newjob.depend_on;
depended_job = findjob(p->depend_on);
if (depended_job != 0)
add_notify_errorlevel_to(depended_job, p->jobid);
else
{
struct Job *parent;
parent = find_finished_job(p->depend_on);
if (parent)
{
p->dependency_errorlevel = parent->result.errorlevel;
}
else
{
/* We consider as if the job not found
didn't finish well */
p->dependency_errorlevel = -1;
}
}
}
}
pinfo_init(&p->info);
pinfo_set_enqueue_time(&p->info);
/* load the command */
p->command = malloc(m->u.newjob.command_size);
if (p->command == 0)
error("Cannot allocate memory in s_newjob command_size (%i)",
m->u.newjob.command_size);
res = recv_bytes(s, p->command, m->u.newjob.command_size);
if (res == -1)
error("wrong bytes received");
/* load the label */
p->label = 0;
if (m->u.newjob.label_size > 0)
{
char *ptr;
ptr = (char *) malloc(m->u.newjob.label_size);
if (ptr == 0)
error("Cannot allocate memory in s_newjob env_size(%i)",
m->u.newjob.env_size);
res = recv_bytes(s, ptr, m->u.newjob.label_size);
if (res == -1)
error("wrong bytes received");
p->label = ptr;
}
/* load the info */
if (m->u.newjob.env_size > 0)
{
char *ptr;
ptr = (char *) malloc(m->u.newjob.env_size);
if (ptr == 0)
error("Cannot allocate memory in s_newjob env_size(%i)",
m->u.newjob.env_size);
res = recv_bytes(s, ptr, m->u.newjob.env_size);
if (res == -1)
error("wrong bytes received");
pinfo_addinfo(&p->info, m->u.newjob.env_size+100,
"Environment:\n%s", ptr);
free(ptr);
}
return p->jobid;
}
/* This assumes the jobid exists */
void s_removejob(int jobid)
{
struct Job *p;
struct Job *newnext;
if (firstjob->jobid == jobid)
{
struct Job *newfirst;
/* First job is to be removed */
newfirst = firstjob->next;
free(firstjob->command);
free(firstjob->output_filename);
pinfo_free(&firstjob->info);
free(firstjob->label);
free(firstjob);
firstjob = newfirst;
return;
}
p = firstjob;
/* Not first job */
while (p->next != 0)
{
if (p->next->jobid == jobid)
break;
p = p->next;
}
if (p->next == 0)
error("Job to be removed not found. jobid=%i", jobid);
newnext = p->next->next;
free(p->next->command);
free(p->next);
p->next = newnext;
}
/* -1 if no one should be run. */
int next_run_job()
{
struct Job *p;
/* busy_slots may be bigger than the maximum slots,
* if the user was running many jobs, and suddenly
* trimmed the maximum slots down. */
if (busy_slots >= max_slots)
return -1;
/* If there are no jobs to run... */
if (firstjob == 0)
return -1;
/* Look for a runnable task */
p = firstjob;
while(p != 0)
{
if (p->state == QUEUED)
{
if (p->depend_on >= 0)
{
struct Job *do_depend_job = get_job(p->depend_on);
/* We won't try to run any job do_depending on an unfinished
* job */
if (do_depend_job != NULL &&
(do_depend_job->state == QUEUED || do_depend_job->state == RUNNING))
{
/* Next try */
p = p->next;
continue;
}
}
++busy_slots;
return p->jobid;
}
p = p->next;
}
return -1;
}
/* Returns 1000 if no limit, The limit otherwise. */
static int get_max_finished_jobs()
{
char *limit;
limit = getenv("TS_MAXFINISHED");
if (limit == NULL)
return 1000;
return abs(atoi(limit));
}
/* Add the job to the finished queue. */
static void new_finished_job(struct Job *j)
{
struct Job *p;
int count, max;
max = get_max_finished_jobs();
count = 0;
if (first_finished_job == 0 && count < max)
{
first_finished_job = j;
first_finished_job->next = 0;
return;
}
++count;
p = first_finished_job;
while(p->next != 0)
{
p = p->next;
++count;
}
/* If too many jobs, wipe out the first */
if (count >= max)
{
struct Job *tmp;
tmp = first_finished_job;
first_finished_job = first_finished_job->next;
free(tmp->command);
free(tmp->output_filename);
pinfo_free(&tmp->info);
free(tmp->label);
free(tmp);
}
p->next = j;
p->next->next = 0;
return;
}
int job_is_running(int jobid)
{
struct Job *p;
p = findjob(jobid);
if (p == 0)
return 0;
if (p->state == RUNNING)
return 1;
return 0;
}
void job_finished(const struct Result *result, int jobid)
{
struct Job *p;
if (busy_slots <= 0)
error("Wrong state in the server. busy_slots = %i instead of greater than 0", busy_slots);
p = findjob(jobid);
if (p == 0)
error("on jobid %i finished, it doesn't exist", jobid);
if (p->state != RUNNING)
error("on jobid %i finished, it is not running but %i",
jobid, p->state);
/* Mark state */
if (result->skipped)
p->state = SKIPPED;
else
p->state = FINISHED;
p->result = *result;
last_finished_jobid = p->jobid;
notify_errorlevel(p);
pinfo_set_end_time(&p->info);
if (p->result.died_by_signal)
pinfo_addinfo(&p->info, 100, "Exit status: killed by signal %i\n", p->result.signal);
else
pinfo_addinfo(&p->info, 100, "Exit status: died with exit code %i\n", p->result.errorlevel);
/* Find the pointing node, to
* update it removing the finished job. */
{
struct Job **jpointer = 0;
struct Job *newfirst = p->next;
if (firstjob == p)
jpointer = &firstjob;
else
{
struct Job *p2;
p2 = firstjob;
while(p2 != 0)
{
if (p2->next == p)
{
jpointer = &(p2->next);
break;
}
p2 = p2->next;
}
}
/* Add it to the finished queue */
if (p->should_keep_finished)
new_finished_job(p);
/* Remove it from the run queue */
if (jpointer == 0)
error("Cannot remove a finished job from the "
"queue list (jobid=%i)", p->jobid);
*jpointer = newfirst;
}
--busy_slots;
}
void s_clear_finished()
{
struct Job *p;
if (first_finished_job == 0)
return;
p = first_finished_job;
first_finished_job = 0;
while (p != 0)
{
struct Job *tmp;
tmp = p->next;
free(p->command);
free(p->output_filename);
pinfo_free(&p->info);
free(p->label);
free(p);
p = tmp;
}
}
void s_process_runjob_ok(int jobid, char *oname, int pid)
{
struct Job *p;
p = findjob(jobid);
if (p == 0)
error("Job %i already run not found on runjob_ok", jobid);
if (p->state != RUNNING)
error("Job %i not running, but %i on runjob_ok", jobid,
p->state);
p->pid = pid;
p->output_filename = oname;
pinfo_set_start_time(&p->info);
}
void s_send_runjob(int s, int jobid)
{
struct msg m;
struct Job *p;
p = findjob(jobid);
if (p == 0)
error("Job %i was expected to run", jobid);
m.type = RUNJOB;
/* TODO
* We should make the dependencies update the jobids they're do_depending on.
* Then, on finish, these could set the errorlevel to send to its dependency childs.
* We cannot consider that the jobs will leave traces in the finished job list (-nf?) . */
m.u.last_errorlevel = p->dependency_errorlevel;
send_msg(s, &m);
}
void s_job_info(int s, int jobid)
{
struct Job *p = 0;
struct msg m;
if (jobid == -1)
{
/* This means that we want the job info of the running task, or that
* of the last job run */
if (busy_slots > 0)
{
p = firstjob;
if (p == 0)
error("Internal state WAITING, but job not run."
"firstjob = %x", firstjob);
}
else
{
p = first_finished_job;
if (p == 0)
{
send_list_line(s, "No jobs.\n");
return;
}
while(p->next != 0)
p = p->next;
}
} else
{
p = firstjob;
while (p != 0 && p->jobid != jobid)
p = p->next;
/* Look in finished jobs if needed */
if (p == 0)
{
p = first_finished_job;
while (p != 0 && p->jobid != jobid)
p = p->next;
}
}
if (p == 0)
{
char tmp[50];
sprintf(tmp, "Job %i not finished or not running.\n", jobid);
send_list_line(s, tmp);
return;
}
m.type = INFO_DATA;
send_msg(s, &m);
pinfo_dump(&p->info, s);
fd_nprintf(s, 100, "Command: %s", (p->depend_on != -1)?"&& ":"");
write(s, p->command, strlen(p->command));
fd_nprintf(s, 100, "\n");
fd_nprintf(s, 100, "Enqueue time: %s",
ctime(&p->info.enqueue_time.tv_sec));
if (p->state == RUNNING)
{
fd_nprintf(s, 100, "Start time: %s",
ctime(&p->info.start_time.tv_sec));
fd_nprintf(s, 100, "Time running: %fs\n",
pinfo_time_until_now(&p->info));
} else if (p->state == FINISHED)
{
fd_nprintf(s, 100, "Start time: %s",
ctime(&p->info.start_time.tv_sec));
fd_nprintf(s, 100, "End time: %s",
ctime(&p->info.end_time.tv_sec));
fd_nprintf(s, 100, "Time run: %fs\n",
pinfo_time_run(&p->info));
}
}
void s_send_output(int s, int jobid)
{
struct Job *p = 0;
struct msg m;
if (jobid == -1)
{
/* This means that we want the output info of the running task, or that
* of the last job run */
if (busy_slots > 0)
{
p = firstjob;
if (p == 0)
error("Internal state WAITING, but job not run."
"firstjob = %x", firstjob);
}
else
{
p = first_finished_job;
if (p == 0)
{
send_list_line(s, "No jobs.\n");
return;
}
while(p->next != 0)
p = p->next;
}
} else
{
p = get_job(jobid);
if (p != 0 && p->state != RUNNING
&& p->state != FINISHED
&& p->state != SKIPPED)
p = 0;
}
if (p == 0)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job has not finished or is not running.\n");
else
sprintf(tmp, "Job %i not finished or not running.\n", jobid);
send_list_line(s, tmp);
return;
}
if (p->state == SKIPPED)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job was skipped due to a dependency.\n");
else
sprintf(tmp, "Job %i was skipped due to a dependency.\n", jobid);
send_list_line(s, tmp);
return;
}
m.type = ANSWER_OUTPUT;
m.u.output.store_output = p->store_output;
m.u.output.pid = p->pid;
if (m.u.output.store_output)
m.u.output.ofilename_size = strlen(p->output_filename) + 1;
else
m.u.output.ofilename_size = 0;
send_msg(s, &m);
send_bytes(s, p->output_filename, m.u.output.ofilename_size);
}
void notify_errorlevel(struct Job *p)
{
int i;
last_errorlevel = p->result.errorlevel;
for(i = 0; i < p->notify_errorlevel_to_size; ++i)
{
struct Job *notified;
notified = get_job(p->notify_errorlevel_to[i]);
if (notified)
{
notified->dependency_errorlevel = p->result.errorlevel;
}
}
}
int s_remove_job(int s, int jobid)
{
struct Job *p = 0;
struct msg m;
struct Job *before_p = 0;
if (jobid == -1)
{
/* Find the last job added */
p = firstjob;
if (p != 0)
{
while (p->next != 0)
{
before_p = p;
p = p->next;
}
} else
{
/* last 'finished' */
p = first_finished_job;
if (p)
{
while (p->next != 0)
{
before_p = p;
p = p->next;
}
}
}
}
else
{
p = firstjob;
if (p != 0)
{
while (p->next != 0 && p->jobid != jobid)
{
before_p = p;
p = p->next;
}
}
/* If not found, look in the 'finished' list */
if (p == 0 || p->jobid != jobid)
{
p = first_finished_job;
if (p != 0)
{
while (p->next != 0 && p->jobid != jobid)
{
before_p = p;
p = p->next;
}
if (p->jobid != jobid)
p = 0;
}
}
}
if (p == 0 || p->state == RUNNING || p == firstjob)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job cannot be removed.\n");
else
sprintf(tmp, "The job %i cannot be removed.\n", jobid);
send_list_line(s, tmp);
return 0;
}
/* Tricks for the check_notify_list */
p->state = FINISHED;
p->result.errorlevel = -1;
notify_errorlevel(p);
/* Notify the clients in wait_job */
check_notify_list(m.u.jobid);
/* Update the list pointers */
if (p == first_finished_job)
first_finished_job = p->next;
else
before_p->next = p->next;
free(p->notify_errorlevel_to);
free(p->command);
free(p->output_filename);
pinfo_free(&p->info);
free(p->label);
free(p);
m.type = REMOVEJOB_OK;
send_msg(s, &m);
return 1;
}
static void add_to_notify_list(int s, int jobid)
{
struct Notify *n;
struct Notify *new;
new = (struct Notify *) malloc(sizeof(*new));
new->socket = s;
new->jobid = jobid;
new->next = 0;
n = first_notify;
if (n == 0)
{
first_notify = new;
return;
}
while(n->next != 0)
n = n->next;
n->next = new;
}
static void send_waitjob_ok(int s, int errorlevel)
{
struct msg m;
m.type = WAITJOB_OK;
m.u.result.errorlevel = errorlevel;
send_msg(s, &m);
}
static struct Job *
get_job(int jobid)
{
struct Job *j;
j = findjob(jobid);
if (j != NULL)
return j;
j = find_finished_job(jobid);
if (j != NULL)
return j;
return 0;
}
/* Don't complain, if the socket doesn't exist */
void s_remove_notification(int s)
{
struct Notify *n;
struct Notify *previous;
n = first_notify;
while (n != 0 && n->socket != s)
n = n->next;
if (n == 0 || n->socket != s)
return;
/* Remove the notification */
previous = first_notify;
if (n == previous)
{
first_notify = n->next;
free(n);
return;
}
/* if not the first... */
while(previous->next != n)
previous = previous->next;
previous->next = n->next;
free(n);
}
/* This is called when a job finishes */
void check_notify_list(int jobid)
{
struct Notify *n, *tmp;
struct Job *j;
n = first_notify;
while (n != 0)
{
tmp = n;
n = n->next;
if (tmp->jobid == jobid)
{
j = get_job(jobid);
/* If the job finishes, notify the waiter */
if (j->state == FINISHED || j->state == SKIPPED)
{
send_waitjob_ok(tmp->socket, j->result.errorlevel);
/* We want to get the next Nofity* before we remove
* the actual 'n'. As s_remove_notification() simply
* removes the element from the linked list, we can
* safely follow on the list from n->next. */
s_remove_notification(tmp->socket);
}
}
}
}
void s_wait_job(int s, int jobid)
{
struct Job *p = 0;
if (jobid == -1)
{
/* Find the last job added */
p = firstjob;
if (p != 0)
while (p->next != 0)
p = p->next;
/* Look in finished jobs if needed */
if (p == 0)
{
p = first_finished_job;
if (p != 0)
while (p->next != 0)
p = p->next;
}
}
else
{
p = firstjob;
while (p != 0 && p->jobid != jobid)
p = p->next;
/* Look in finished jobs if needed */
if (p == 0)
{
p = first_finished_job;
while (p != 0 && p->jobid != jobid)
p = p->next;
}
}
if (p == 0)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job cannot be waited.\n");
else
sprintf(tmp, "The job %i cannot be waited.\n", jobid);
send_list_line(s, tmp);
return;
}
if (p->state == FINISHED || p->state == SKIPPED)
{
send_waitjob_ok(s, p->result.errorlevel);
}
else
add_to_notify_list(s, p->jobid);
}
void s_wait_running_job(int s, int jobid)
{
struct Job *p = 0;
/* The job finding algorithm should be similar to that of
* s_send_output, because this will be used by "-t" and "-c" */
if (jobid == -1)
{
/* This means that we want the output info of the running task, or that
* of the last job run */
if (busy_slots > 0)
{
p = firstjob;
if (p == 0)
error("Internal state WAITING, but job not run."
"firstjob = %x", firstjob);
}
else
{
p = first_finished_job;
if (p == 0)
{
send_list_line(s, "No jobs.\n");
return;
}
while(p->next != 0)
p = p->next;
}
}
else
{
p = firstjob;
while (p != 0 && p->jobid != jobid)
p = p->next;
/* Look in finished jobs if needed */
if (p == 0)
{
p = first_finished_job;
while (p != 0 && p->jobid != jobid)
p = p->next;
}
}
if (p == 0)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job cannot be waited.\n");
else
sprintf(tmp, "The job %i cannot be waited.\n", jobid);
send_list_line(s, tmp);
return;
}
if (p->state == FINISHED || p->state == SKIPPED)
{
send_waitjob_ok(s, p->result.errorlevel);
}
else
add_to_notify_list(s, p->jobid);
}
void s_set_max_slots(int new_max_slots)
{
if (new_max_slots > 0)
max_slots = new_max_slots;
else
warning("Received new_max_slots=%i", new_max_slots);
}
void s_get_max_slots(int s)
{
struct msg m;
/* Message */
m.type = GET_MAX_SLOTS_OK;
m.u.max_slots = max_slots;
send_msg(s, &m);
}
void s_move_urgent(int s, int jobid)
{
struct Job *p = 0;
struct Job *tmp1;
if (jobid == -1)
{
/* Find the last job added */
p = firstjob;
if (p != 0)
while (p->next != 0)
p = p->next;
}
else
{
p = firstjob;
while (p != 0 && p->jobid != jobid)
p = p->next;
}
if (p == 0 || firstjob->next == 0)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job cannot be urged.\n");
else
sprintf(tmp, "The job %i cannot be urged.\n", jobid);
send_list_line(s, tmp);
return;
}
/* Interchange the pointers */
tmp1 = find_previous_job(p);
tmp1->next = p->next;
p->next = firstjob->next;
firstjob->next = p;
send_urgent_ok(s);
}
void s_swap_jobs(int s, int jobid1, int jobid2)
{
struct Job *p1, *p2;
struct Job *prev1, *prev2;
struct Job *tmp;
p1 = findjob(jobid1);
p2 = findjob(jobid2);
if (p1 == 0 || p2 == 0 || p1 == firstjob || p2 == firstjob)
{
char prev[60];
sprintf(prev, "The jobs %i and %i cannot be swapped.\n", jobid1, jobid2);
send_list_line(s, prev);
return;
}
/* Interchange the pointers */
prev1 = find_previous_job(p1);
prev2 = find_previous_job(p2);
prev1->next = p2;
prev2->next = p1;
tmp = p1->next;
p1->next = p2->next;
p2->next = tmp;
send_swap_jobs_ok(s);
}
static void send_state(int s, enum Jobstate state)
{
struct msg m;
m.type = ANSWER_STATE;
m.u.state = state;
send_msg(s, &m);
}
void s_send_state(int s, int jobid)
{
struct Job *p = 0;
if (jobid == -1)
{
/* Find the last job added */
p = firstjob;
if (p != 0)
while (p->next != 0)
p = p->next;
/* Look in finished jobs if needed */
if (p == 0)
{
p = first_finished_job;
if (p != 0)
while (p->next != 0)
p = p->next;
}
}
else
{
p = get_job(jobid);
}
if (p == 0)
{
char tmp[50];
if (jobid == -1)
sprintf(tmp, "The last job cannot be stated.\n");
else
sprintf(tmp, "The job %i cannot be stated.\n", jobid);
send_list_line(s, tmp);
return;
}
/* Interchange the pointers */
send_state(s, p->state);
}
static void dump_job_struct(FILE *out, const struct Job *p)
{
fprintf(out, " new_job\n");
fprintf(out, " jobid %i\n", p->jobid);
fprintf(out, " command \"%s\"\n", p->command);
fprintf(out, " state %s\n",
jstate2string(p->state));
fprintf(out, " result.errorlevel %i\n", p->result.errorlevel);
fprintf(out, " output_filename \"%s\"\n",
p->output_filename ? p->output_filename : "NULL");
fprintf(out, " store_output %i\n", p->store_output);
fprintf(out, " pid %i\n", p->pid);
fprintf(out, " should_keep_finished %i\n", p->should_keep_finished);
}
void dump_jobs_struct(FILE *out)
{
const struct Job *p;
fprintf(out, "New_jobs\n");
p = firstjob;
while (p != 0)
{
dump_job_struct(out, p);
p = p->next;
}
p = first_finished_job;
while (p != 0)
{
dump_job_struct(out, p);
p = p->next;
}
}
static void dump_notify_struct(FILE *out, const struct Notify *n)
{
fprintf(out, " notify\n");
fprintf(out, " jobid %i\n", n->jobid);
fprintf(out, " socket \"%i\"\n", n->socket);
}
void dump_notifies_struct(FILE *out)
{
const struct Notify *n;
fprintf(out, "New_notifies\n");
n = first_notify;
while (n != 0)
{
dump_notify_struct(out, n);
n = n->next;
}
}
void joblist_dump(int fd)
{
struct Job *p;
char *buffer;
buffer = joblistdump_headers();
write(fd,buffer, strlen(buffer));
free(buffer);
/* We reuse the headers from the list */
buffer = joblist_headers();
write(fd, "# ", 2);
write(fd, buffer, strlen(buffer));
/* Show Finished jobs */
p = first_finished_job;
while(p != 0)
{
buffer = joblist_line(p);
write(fd, "# ", 2);
write(fd,buffer, strlen(buffer));
free(buffer);
p = p->next;
}
write(fd, "\n", 1);
/* Show Queued or Running jobs */
p = firstjob;
while(p != 0)
{
buffer = joblistdump_torun(p);
write(fd,buffer,strlen(buffer));
free(buffer);
p = p->next;
}
}