/***************************************************************************** * FUNCTION * avk_mytimer_expiry_handler * DESCRIPTION * mytimer proc for EVT_ID_MMI_TIMER_EXPIRY_PROC_EXT * PARAMETERS * evt : [IN] mmi timer event pointer in fact * RETURNS * 0 : callback manager will continue to deliver this event * non-zero : callback manager will stop deliver this event *****************************************************************************/ extern "C" mmi_ret avk_mytimer_expiry_handler(mmi_event_struct *evt) { /*----------------------------------------------------------------*/ /* Local Variables */ /*----------------------------------------------------------------*/ mmi_timer_event_struct *timer_event; ilm_struct *ilm; kal_uint16 timer_index; /*----------------------------------------------------------------*/ /* Code Body */ /*----------------------------------------------------------------*/ timer_event = (mmi_timer_event_struct *)evt; ilm = (ilm_struct *)timer_event->expiry_msg; timer_index = evshed_get_index(ilm); if (AVK_MYTIMER_BASE_ID == timer_index) { evshed_timer_handler((event_scheduler *)g_mytimer_base_cntx); /* my timer expiry msg, return non-zero to stop deliver timer event */ return 1; } /* not my timer expiry msg, return 0 to continue to deliver timer event for other listeners */ return 0; }
void usbc_cosim_core_task_main(task_entry_struct* task_entry_ptr) { kal_uint8 wait_count = 0; ilm_struct current_ilm; kal_uint32 rt_event; kal_uint16 timer_index; module_type dest_mod; msg_type msg_id; usbc_class_device_esl_connect_parm *rsp_msg_p; usbc_core_t* pUsbCore = usbc_core_get_instance(); kal_set_active_module_id(MOD_USBCORE); kal_mem_set(¤t_ilm, 0, sizeof(ilm_struct)); usbc_esl_printf("Start USBCORE task loop...\n"); while(1) { while ( msg_get_extq_messages() > 0 ) { if ( msg_receive_extq(¤t_ilm) != KAL_TRUE ) { break; } switch (current_ilm.msg_id) { case MSG_ID_TIMER_EXPIRY: timer_index = evshed_get_index(¤t_ilm); switch (timer_index) { case USBC_WK_NOTIFY_INDEX: ASSERT(0); evshed_timer_handler(pUsbCore->usbc_es_wk_notify_g); break; default: break; } break; default: break; } destroy_ilm(¤t_ilm); } /* Wait someone notify HMU to wake up HIF. */ rt_event = hmu_hifeg_wait(HIF_DRV_EG_HIF_TICK_EVENT | HIF_DRV_EG_USBC_IND_EVENT); if ((HIF_DRV_EG_HIF_TICK_EVENT & rt_event) && (pUsbCore->state != USBC_USB_STATE_SUSPENDED)) { /* poll HIF queue data */ usbc_esl_printf("Start HIF USB poll queue...\n"); usbc_normal_hif_poll_queue(); usbc_esl_printf("End HIF USB poll queue...\n"); } if ((HIF_DRV_EG_USBC_IND_EVENT & rt_event)) { /* Handle indications */ usbc_normal_hif_process_indications(); } // wait for IPCORE finishing handling ILMs in ipc_init if (wait_count < 1) { wait_count++; if(wait_count == 1) { usbc_esl_printf("Emulare USB enumeration...\n"); // Emulate USB plug-in for ESL COSIM usbc_cosim_hif_attach(); usbc_esl_printf("Set USB class to connected state...\n"); // change USB classes state to transfer data rsp_msg_p = (usbc_class_device_esl_connect_parm*)construct_local_para(sizeof(usbc_class_device_esl_connect_parm), TD_RESET); ASSERT(rsp_msg_p); rsp_msg_p->class_device_id = 0; msg_id = MSG_ID_USBCLASS_USBCORE_ESL_ENTER_CONNECTED_STATE_REQ; switch ((pUsbCore->class_device[0]).class_type) { #ifdef __USB_MBIM_SUPPORT__ case USB_CLASS_MBIM: dest_mod = MOD_MBIM; break; #endif #ifdef __USB_ECM_SUPPORT__ case USB_CLASS_ECM: dest_mod = MOD_ECM; break; #endif #ifdef __USB_RNDIS_SUPPORT__ case USB_CLASS_RNDIS: dest_mod = MOD_RNDIS; break; #endif default: // We assume the first class device must be a NIC for ESL CO-SIM ASSERT(0); return; break; } msg_send6(MOD_USBCORE, // src module dest_mod, // dst module 0, // sap id msg_id, (local_para_struct*)rsp_msg_p, 0); //msg id } } } }