au_kcontext_t
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
int au_zone_getstate(const au_kcontext_t *);
int audit_success(au_kcontext_t *, struct t_audit_data *, int, cred_t *);
int auditme(au_kcontext_t *, struct t_audit_data *, au_state_t);
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_close(au_kcontext_t *kctx, caddr_t *d, int flag, au_event_t e_type,
au_close_time(au_kcontext_t *kctx, token_t *dchain, int flag, au_event_t e_type,
au_enqueue(au_kcontext_t *kctx, au_buff_t *m, adr_t *hadrp, adr_t *sadrp,
au_dequeue(au_kcontext_t *kctx, au_buff_t *freeto)
audit_sync_block(au_kcontext_t *kctx)
audit_async_block(au_kcontext_t *kctx, caddr_t *rpp)
au_door_upcall(au_kcontext_t *kctx, au_dbuf_t *aubuf)
static void au_dequeue(au_kcontext_t *, au_buff_t *);
static int audit_sync_block(au_kcontext_t *);
au_doormsg(au_kcontext_t *kctx, uint32_t message_code, void *message)
au_doorio(au_kcontext_t *kctx)
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_GZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx;
void au_close(au_kcontext_t *, caddr_t *, int, au_event_t, au_emod_t,
void au_close_time(au_kcontext_t *, token_t *, int, au_event_t, au_emod_t,
void au_enqueue(au_kcontext_t *, au_buff_t *, adr_t *, adr_t *, int, int);
int au_doorio(au_kcontext_t *);
int au_doormsg(au_kcontext_t *, uint32_t, void *);
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
audit_success(au_kcontext_t *kctx, struct t_audit_data *tad, int error,
auditme(au_kcontext_t *kctx, struct t_audit_data *tad, au_state_t estate)
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
if ((((au_kcontext_t *)kctx)->auk_valid != AUK_VALID) ||
(((au_kcontext_t *)kctx)->auk_auditstate == AUC_NOAUDIT))
mutex_enter(&(((au_kcontext_t *)kctx)->auk_queue.lock));
cv_broadcast(&(((au_kcontext_t *)kctx)->auk_queue.write_cv));
mutex_exit(&(((au_kcontext_t *)kctx)->auk_queue.lock));
if ((((au_kcontext_t *)kctx)->auk_valid != AUK_VALID) ||
(((au_kcontext_t *)kctx)->auk_auditstate == AUC_NOAUDIT))
if (((au_kcontext_t *)kctx)->auk_queue.cnt &&
((au_kcontext_t *)kctx)->auk_queue.rd_block)
cv_broadcast(&((au_kcontext_t *)kctx)->auk_queue.read_cv);
((au_kcontext_t *)kctx)->auk_queue.delay);
au_output_thread(au_kcontext_t *kctx)
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = arg;
au_kcontext_t *kctx = arg;
kmem_free(kctx, sizeof (au_kcontext_t));
au_zone_getstate(const au_kcontext_t *context)
au_kcontext_t *tcontext;
au_kcontext_t *kctx = kmem_zalloc(sizeof (au_kcontext_t), KM_SLEEP);
static au_kcontext_t *global_kctx = NULL;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx;
au_kcontext_t *kctx;
au_kcontext_t *kctx;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx;
au_kcontext_t *kctx = GET_KCTX_PZ;
au_kcontext_t *kctx = GET_KCTX_PZ;