int so_scheduler_shutdown(soscheduler *s) { so *e = s->env; int rcret = 0; int rc = so_workersshutdown(&s->workers, &e->r); if (srunlikely(rc == -1)) rcret = -1; if (s->i) { sr_free(&e->a, s->i); s->i = NULL; } sr_mutexfree(&s->lock); return rcret; }
static void mt_multi_stmt(stc *cx) { cx->env = sp_env(); t( cx->env != NULL ); void *c = sp_ctl(cx->env); t( c != NULL ); t( sp_set(c, "sophia.path", cx->suite->sophiadir) == 0 ); t( sp_set(c, "scheduler.threads", "3") == 0 ); t( sp_set(c, "log.path", cx->suite->logdir) == 0 ); t( sp_set(c, "log.sync", "0") == 0 ); t( sp_set(c, "log.rotate_sync", "0") == 0 ); t( sp_set(c, "db", "test") == 0 ); t( sp_set(c, "db.test.path", cx->suite->dir) == 0 ); t( sp_set(c, "db.test.sync", "0") == 0 ); cx->db = sp_get(c, "db.test"); t( cx->db != NULL ); t( sp_open(cx->env) == 0 ); ssa a; ss_aopen(&a, &ss_stda); srscheme cmp; sr_schemeinit(&cmp); srkey *part = sr_schemeadd(&cmp, &a); t( sr_keysetname(part, &a, "key") == 0 ); t( sr_keyset(part, &a, "u32") == 0 ); ssinjection ij; memset(&ij, 0, sizeof(ij)); srerror error; sr_errorinit(&error); srseq seq; sr_seqinit(&seq); sscrcf crc = ss_crc32c_function(); sr r; sr_init(&r, &error, &a, &seq, SF_KV, SF_SRAW, &cmp, &ij, crc, NULL); soworkers w; so_workersinit(&w); void *ptr[2] = { cx->env, cx->db }; t( so_workersnew(&w, &r, 5, multi_stmt_thread, (void*)ptr) == 0 ); t( so_workersshutdown(&w, &r) == 0 ); sr_schemefree(&cmp, &a); void *o = sp_get(c, "db.test.index.count"); t( o != NULL ); t( strcmp( sp_get(o, "value", NULL), "100000") == 0 ); sp_destroy(o); t( sp_destroy(cx->env) == 0 ); }