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job.c
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job.c
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#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "dat.h"
static uint64 next_id = 1;
static int cur_prime = 0;
static job all_jobs_init[12289] = {0};
static job *all_jobs = all_jobs_init;
static size_t all_jobs_cap = 12289; /* == primes[0] */
static size_t all_jobs_used = 0;
static int hash_table_was_oom = 0;
static void rehash();
static int
_get_job_hash_index(uint64 job_id)
{
return job_id % all_jobs_cap;
}
static void
store_job(job j)
{
int index = 0;
index = _get_job_hash_index(j->r.id);
j->ht_next = all_jobs[index];
all_jobs[index] = j;
all_jobs_used++;
/* accept a load factor of 4 */
if (all_jobs_used > (all_jobs_cap << 2)) rehash();
}
static void
rehash()
{
job *old = all_jobs;
size_t old_cap = all_jobs_cap, old_used = all_jobs_used, i;
if (cur_prime >= NUM_PRIMES) return;
if (hash_table_was_oom) return;
all_jobs_cap = primes[++cur_prime];
all_jobs = calloc(all_jobs_cap, sizeof(job));
if (!all_jobs) {
twarnx("Failed to allocate %"PRIu32" new hash buckets", all_jobs_cap);
hash_table_was_oom = 1;
--cur_prime;
all_jobs = old;
all_jobs_cap = old_cap;
all_jobs_used = old_used;
return;
}
all_jobs_used = 0;
for (i = 0; i < old_cap; i++) {
while (old[i]) {
job j = old[i];
old[i] = j->ht_next;
j->ht_next = NULL;
store_job(j);
}
}
if (old != all_jobs_init) {
free(old);
}
}
job
job_find(uint64 job_id)
{
job jh = NULL;
int index = _get_job_hash_index(job_id);
for (jh = all_jobs[index]; jh && jh->r.id != job_id; jh = jh->ht_next);
return jh;
}
job
allocate_job(int body_size)
{
job j;
j = malloc(sizeof(struct job) + body_size);
if (!j) return twarnx("OOM"), (job) 0;
memset(j, 0, sizeof(struct job));
j->r.created_at = nanoseconds();
j->r.body_size = body_size;
j->next = j->prev = j; /* not in a linked list */
return j;
}
job
make_job_with_id(uint pri, int64 delay, int64 ttr,
int body_size, tube tube, uint64 id)
{
job j;
j = allocate_job(body_size);
if (!j) return twarnx("OOM"), (job) 0;
if (id) {
j->r.id = id;
if (id >= next_id) next_id = id + 1;
} else {
j->r.id = next_id++;
}
j->r.pri = pri;
j->r.delay = delay;
j->r.ttr = ttr;
store_job(j);
TUBE_ASSIGN(j->tube, tube);
return j;
}
static void
job_hash_free(job j)
{
job *slot;
slot = &all_jobs[_get_job_hash_index(j->r.id)];
while (*slot && *slot != j) slot = &(*slot)->ht_next;
if (*slot) {
*slot = (*slot)->ht_next;
--all_jobs_used;
}
}
void
job_free(job j)
{
if (j) {
TUBE_ASSIGN(j->tube, NULL);
if (j->r.state != Copy) job_hash_free(j);
}
free(j);
}
void
job_setheappos(void *j, int pos)
{
((job)j)->heap_index = pos;
}
int
job_pri_less(void *ax, void *bx)
{
job a = ax, b = bx;
if (a->r.pri < b->r.pri) return 1;
if (a->r.pri > b->r.pri) return 0;
return a->r.id < b->r.id;
}
int
job_delay_less(void *ax, void *bx)
{
job a = ax, b = bx;
if (a->r.deadline_at < b->r.deadline_at) return 1;
if (a->r.deadline_at > b->r.deadline_at) return 0;
return a->r.id < b->r.id;
}
job
job_copy(job j)
{
job n;
if (!j) return NULL;
n = malloc(sizeof(struct job) + j->r.body_size);
if (!n) return twarnx("OOM"), (job) 0;
memcpy(n, j, sizeof(struct job) + j->r.body_size);
n->next = n->prev = n; /* not in a linked list */
n->file = NULL; /* copies do not have refcnt on the wal */
n->tube = 0; /* Don't use memcpy for the tube, which we must refcount. */
TUBE_ASSIGN(n->tube, j->tube);
/* Mark this job as a copy so it can be appropriately freed later on */
n->r.state = Copy;
return n;
}
const char *
job_state(job j)
{
if (j->r.state == Ready) return "ready";
if (j->r.state == Reserved) return "reserved";
if (j->r.state == Buried) return "buried";
if (j->r.state == Delayed) return "delayed";
return "invalid";
}
int
job_list_any_p(job head)
{
return head->next != head || head->prev != head;
}
job
job_remove(job j)
{
if (!j) return NULL;
if (!job_list_any_p(j)) return NULL; /* not in a doubly-linked list */
j->next->prev = j->prev;
j->prev->next = j->next;
j->prev = j->next = j;
return j;
}
void
job_insert(job head, job j)
{
if (job_list_any_p(j)) return; /* already in a linked list */
j->prev = head->prev;
j->next = head;
head->prev->next = j;
head->prev = j;
}
uint64
total_jobs()
{
return next_id - 1;
}
/* for unit tests */
size_t
get_all_jobs_used()
{
return all_jobs_used;
}