static void dt_proc_bpenable(dt_proc_t *dpr) { dt_bkpt_t *dbp; assert(DT_MUTEX_HELD(&dpr->dpr_lock)); for (dbp = dt_list_next(&dpr->dpr_bps); dbp != NULL; dbp = dt_list_next(dbp)) { if (!dbp->dbp_active && Psetbkpt(dpr->dpr_proc, dbp->dbp_addr, &dbp->dbp_instr) == 0) dbp->dbp_active = B_TRUE; } dt_dprintf("breakpoints enabled\n"); }
static void dt_proc_bpenable(dt_proc_t *dpr) { dt_bkpt_t *dbp; assert(DT_MUTEX_HELD(&dpr->dpr_lock)); for (dbp = dt_list_next(&dpr->dpr_bps); dbp != NULL; dbp = dt_list_next(dbp)) { printf("%s:%s(%d): DOODAD\n",__FUNCTION__,__FILE__,__LINE__); #ifdef DOODAD if (!dbp->dbp_active && Psetbkpt(dpr->dpr_proc, dbp->dbp_addr, &dbp->dbp_instr) == 0) dbp->dbp_active = B_TRUE; #endif } dt_dprintf("breakpoints enabled\n"); }
static dt_bkpt_t * dt_proc_bpcreate(dt_proc_t *dpr, uintptr_t addr, dt_bkpt_f *func, void *data) { struct ps_prochandle *P = dpr->dpr_proc; dt_bkpt_t *dbp; assert(DT_MUTEX_HELD(&dpr->dpr_lock)); if ((dbp = dt_zalloc(dpr->dpr_hdl, sizeof (dt_bkpt_t))) != NULL) { dbp->dbp_func = func; dbp->dbp_data = data; dbp->dbp_addr = addr; if (Psetbkpt(P, dbp->dbp_addr, &dbp->dbp_instr) == 0) dbp->dbp_active = B_TRUE; dt_list_append(&dpr->dpr_bps, dbp); } return (dbp); }