static tb_bool_t tb_aicp_dns_clos_func(tb_aice_ref_t aice) { // check tb_assert_and_check_return_val(aice && aice->aico && aice->code == TB_AICE_CODE_CLOS, tb_false); // trace tb_trace_d("exit: aico: %p: ok", aice->aico); // exit aico tb_aico_exit(aice->aico); // ok return tb_true; }
/* ////////////////////////////////////////////////////////////////////////////////////// * implementation */ static tb_bool_t tb_demo_aico_clos(tb_aice_ref_t aice) { // check tb_assert_and_check_return_val(aice && aice->aico && aice->code == TB_AICE_CODE_CLOS, tb_false); // trace tb_trace_d("aico[%p]: clos: %s", aice->aico, tb_state_cstr(aice->state)); // exit aico tb_aico_exit(aice->aico); // ok return tb_true; }
static tb_bool_t tb_demo_file_aico_clos(tb_aice_t const* aice) { // check tb_assert_and_check_return_val(aice && aice->aico && aice->code == TB_AICE_CODE_CLOS, tb_false); // the context tb_demo_context_t* context = (tb_demo_context_t*)aice->priv; tb_assert_and_check_return_val(context, tb_false); // trace tb_trace_d("aico[%p]: clos: %s", aice->aico, tb_state_cstr(aice->state)); // exit aico tb_aico_exit(aice->aico); // exit sock aico if (context->sock) tb_aico_clos(context->sock, tb_demo_sock_aico_clos, tb_null); context->sock = tb_null; // ok return tb_true; }
static tb_bool_t tb_aiop_push_acpt(tb_aiop_ptor_impl_t* impl, tb_aice_ref_t aice) { // check tb_assert_and_check_return_val(impl && aice, tb_false); tb_assert_and_check_return_val(aice->code == TB_AICE_CODE_ACPT, tb_false); // the aico tb_aiop_aico_t* aico = (tb_aiop_aico_t*)aice->aico; tb_assert_and_check_return_val(aico && aico->base.handle, tb_false); // the priority tb_size_t priority = tb_aice_impl_priority(aice); tb_assert_and_check_return_val(priority < tb_arrayn(impl->spak) && impl->spak[priority], tb_false); // init the acpt aice tb_aice_t acpt_aice = *aice; acpt_aice.state = TB_STATE_OK; // done tb_size_t list_indx = 0; tb_size_t list_size = 0; tb_socket_ref_t list_sock[2048]; tb_ipaddr_t list_addr[2048]; tb_size_t list_maxn = tb_arrayn(list_sock); tb_socket_ref_t acpt = (tb_socket_ref_t)aico->base.handle; tb_queue_ref_t spak = impl->spak[priority]; tb_socket_ref_t sock = tb_null; do { // accept it for (list_size = 0; list_size < list_maxn && (list_sock[list_size] = tb_socket_accept(acpt, list_addr + list_size)); list_size++) ; // enter tb_spinlock_enter(&impl->lock); // push some acpt aice for (list_indx = 0; list_indx < list_size && (sock = list_sock[list_indx]); list_indx++) { // init aico acpt_aice.u.acpt.aico = tb_aico_init(aico->base.aicp); // trace tb_trace_d("push: acpt[%p]: sock: %p, aico: %p", aico->base.handle, sock, acpt_aice.u.acpt.aico); // open aico and push the acpt aice if not full? if ( acpt_aice.u.acpt.aico && tb_aico_open_sock(acpt_aice.u.acpt.aico, sock) && !tb_queue_full(spak)) { // save addr tb_ipaddr_copy(&acpt_aice.u.acpt.addr, list_addr + list_indx); // push to the spak queue tb_queue_put(spak, &acpt_aice); } else { // close the left sock tb_size_t i; for (i = list_indx; i < list_size; i++) { // close it if (list_sock[i]) tb_socket_exit(list_sock[i]); list_sock[i] = tb_null; } // exit aico if (acpt_aice.u.acpt.aico) tb_aico_exit(acpt_aice.u.acpt.aico); acpt_aice.u.acpt.aico = tb_null; // trace tb_trace_e("push: acpt failed!"); break; } } // leave tb_spinlock_leave(&impl->lock); } while (list_indx == list_maxn); // ok return tb_true; }