void flood_close( TiFloodNetwork * net ) { // todo: you should cancel all pending network transmission first before call // this function. frame_close( net->txque ); frame_close( net->rxbuf ); frame_close( net->rxque ); }
int Header::qt_metacall(QMetaObject::Call _c, int _id, void **_a) { _id = QWidget::qt_metacall(_c, _id, _a); if (_id < 0) return _id; if (_c == QMetaObject::InvokeMetaMethod) { switch (_id) { case 0: mouse_release((*reinterpret_cast< QMouseEvent*(*)>(_a[1]))); break; case 1: mouse_move((*reinterpret_cast< QMouseEvent*(*)>(_a[1]))); break; case 2: mouse_left_press((*reinterpret_cast< QMouseEvent*(*)>(_a[1]))); break; case 3: mouse_left_press(); break; case 4: mouse_right_press(); break; case 5: mouse_mid_press(); break; case 6: mouse_double_click(); break; case 7: frame_close(); break; case 8: quit_frame(); break; default: ; } _id -= 9; } return _id; }
void tinymac_recvnode(void) { TiCc2420Adapter * cc; TiFrameRxTxInterface * rxtx;; TiTinyMAC * mac; TiTimerAdapter *timer; TiFrame * rxbuf; char * msg = "welcome to tinymac recv test..."; int len=0; target_init(); // flash the led to indicate the software is successfully running now. // led_open(); led_on( LED_ALL ); hal_delay( 500 ); led_off( LED_ALL ); led_on( LED_RED ); // initialize the runtime library for debugging input/output and assertion // hal_assert_report is defined in module "hal_assert" // //dbo_open( 38400 ); rtl_init( (void *)dbio_open(38400), (TiFunDebugIoPutChar)dbio_putchar, (TiFunDebugIoGetChar)dbio_getchar, hal_assert_report ); dbc_putchar( 0xF0 ); dbc_mem( msg, strlen(msg) ); cc = cc2420_construct( (void *)(&m_cc), sizeof(TiCc2420Adapter) ); mac = tinymac_construct((char *)(&m_tiny), sizeof(TiTinyMAC)); timer= timer_construct((char *)(&m_timer),sizeof(TiTimerAdapter)); #ifdef CONFIG_TSET_LISTENER // cc = cc2420_open( cc, 0, _aloha_listener, NULL, 0x00 ); cc = cc2420_open( cc, 0, tinymac_evolve, mac, 0x00 ); rxtx = cc2420_interface( cc, &m_rxtx ); mac = tinymac_open( mac, rxtx, CONFIG_CHANNEL, CONFIG_PANID, CONFIG_LOCAL_ADDRESS, timer, _tinymac_listener, NULL,0x00 ); #endif #ifndef CONFIG_TSET_LISTENER cc = cc2420_open( cc, 0, NULL, NULL, 0x00 ); rxtx = cc2420_interface( cc, &m_rxtx ); mac = tinymac_open( mac, rxtx, CONFIG_CHANNEL, CONFIG_PANID, CONFIG_LOCAL_ADDRESS, NULL, NULL,0x00 ); #endif cc2420_setchannel( cc, CONFIG_CHANNEL ); cc2420_setrxmode( cc ); // enable RX mode cc2420_setpanid( cc, CONFIG_PANID ); // network identifier, seems no use in sniffer mode cc2420_setshortaddress( cc, CONFIG_LOCAL_ADDRESS ); // in network address, seems no use in sniffer mode cc2420_enable_autoack( cc ); #ifdef CONFIG_TEST_ADDRESSRECOGNITION cc2420_enable_addrdecode( cc ); #else cc2420_disable_addrdecode( cc ); #endif #ifdef CONFIG_TEST_ACK cc2420_enable_autoack( cc ); #endif rxbuf = frame_open( (char*)(&m_rxbufmem), FRAME_HOPESIZE(MAX_IEEE802FRAME154_SIZE), 3, 20, 0 ); #ifdef CONFIG_TEST_ACK //fcf = OPF_DEF_FRAMECONTROL_DATA_ACK; #else //fcf = OPF_DEF_FRAMECONTROL_DATA_NOACK; #endif hal_enable_interrupts(); /* Wait for listener action. The listener function will be called by the TiCc2420Adapter * object when a frame arrives */ #ifdef CONFIG_TEST_LISTENER while (1) {} #endif /* Query the TiCc2420Adapter object if there's no listener */ #ifndef CONFIG_TEST_LISTENER while(1) { frame_reset( rxbuf, 3, 20, 0 ); len = tinymac_recv( mac, rxbuf, 0x00 ); if (len > 0) { dbc_putchar( 0xF3 ); dbc_mem( frame_startptr(rxbuf), frame_length(rxbuf) ); //frame_moveouter( rxbuf ); //_output_frame( rxbuf, NULL ); //frame_moveinner( rxbuf ); led_off( LED_RED ); /* warning: You shouldn't wait too long in the while loop, or else * you may encounter frame loss. However, the program should still * work properly even the delay time is an arbitrary value. No error * are allowed in this case. */ //hal_delay( 500 ); led_toggle( LED_RED ); //hal_delay( 500 ); } tinymac_evolve(mac, NULL ); } #endif frame_close( rxbuf ); tinymac_close( mac ); cc2420_close( cc ); }
void recvnode(void) { TiCc2420Adapter * cc; TiFrameRxTxInterface * rxtx; TiNioAcceptor * nac; TiAloha * mac; TiTimerAdapter *timer; TiTimerManager * vtm; TiTimer * mac_timer; TiFrame * rxbuf; char * msg = "welcome to aloha recv test..."; int len=0; target_init(); // flash the led to indicate the software is successfully running now. // led_open(); led_on( LED_ALL ); hal_delay( 500 ); led_off( LED_ALL ); //led_on( LED_RED ); // initialize the runtime library for debugging input/output and assertion // hal_assert_report is defined in module "hal_assert" // //dbo_open( 38400 ); rtl_init( (void *)dbio_open(38400), (TiFunDebugIoPutChar)dbio_putchar, (TiFunDebugIoGetChar)dbio_getchar, hal_assert_report ); dbc_putchar( 0xF0 ); dbc_mem( msg, strlen(msg) ); cc = cc2420_construct( (void *)(&m_cc), sizeof(TiCc2420Adapter) ); nac = nac_construct( &m_nacmem[0], NAC_SIZE ); mac = aloha_construct( (char *)(&m_aloha), sizeof(TiAloha) ); timer= timer_construct(( char *)(&m_timer),sizeof(TiTimerAdapter)); vtm = vtm_construct( (void*)&m_vtm, sizeof(m_vtm) ); timer = timer_open( timer, 2, NULL, NULL, 0x00 ); vtm = vtm_open( vtm, timer, VTM_RESOLUTION ); mac_timer = vtm_apply( vtm ); vti_open( mac_timer, NULL, NULL ); #ifdef CONFIG_TSET_LISTENER // cc = cc2420_open( cc, 0, _aloha_listener, NULL, 0x00 ); cc = cc2420_open( cc, 0, aloha_evolve, mac, 0x00 ); rxtx = cc2420_interface( cc, &m_rxtx ); mac = aloha_open( mac, rxtx, CONFIG_ALOHA_CHANNEL, CONFIG_ALOHA_PANID, CONFIG_ALOHA_LOCAL_ADDRESS, mac_timer, _aloha_listener, NULL,0x00 ); #endif #ifndef CONFIG_TSET_LISTENER cc = cc2420_open( cc, 0, NULL, NULL, 0x00 ); rxtx = cc2420_interface( cc, &m_rxtx ); nac_open( nac, rxtx, CONFIG_NIOACCEPTOR_RXQUE_CAPACITY, CONFIG_NIOACCEPTOR_TXQUE_CAPACITY); mac = aloha_open( mac, rxtx, nac,CONFIG_ALOHA_CHANNEL, CONFIG_ALOHA_PANID, CONFIG_ALOHA_LOCAL_ADDRESS, mac_timer, NULL, NULL,0x00 ); #endif cc2420_setchannel( cc, CONFIG_ALOHA_CHANNEL ); cc2420_setrxmode( cc ); // enable RX mode cc2420_setpanid( cc, CONFIG_ALOHA_PANID ); // network identifier, seems no use in sniffer mode cc2420_setshortaddress( cc, CONFIG_ALOHA_LOCAL_ADDRESS ); // in network address, seems no use in sniffer mode cc2420_enable_autoack( cc ); cc2420_settxpower( cc, CC2420_POWER_1);//cc2420_settxpower( cc, CC2420_POWER_2);CC2420_POWER_1 #ifdef CONFIG_TEST_ADDRESSRECOGNITION cc2420_enable_addrdecode( cc ); #else cc2420_disable_addrdecode( cc ); #endif #ifdef CONFIG_TEST_ACK cc2420_enable_autoack( cc ); #endif rxbuf = frame_open( (char*)(&m_rxbufmem), FRAME_HOPESIZE(MAX_IEEE802FRAME154_SIZE), 3, 20, 0 ); dbc_putchar(0x11); #ifdef CONFIG_TEST_ACK //fcf = OPF_DEF_FRAMECONTROL_DATA_ACK; #else //fcf = OPF_DEF_FRAMECONTROL_DATA_NOACK; #endif hal_enable_interrupts(); /* Wait for listener action. The listener function will be called by the TiCc2420Adapter * object when a frame arrives */ #ifdef CONFIG_TEST_LISTENER while (1) {} #endif /* Query the TiCc2420Adapter object if there's no listener */ #ifndef CONFIG_TEST_LISTENER while(1) { char * ptr;//todo for testing frame_reset( rxbuf, 3, 20, 0 ); len = aloha_recv( mac, rxbuf, 0x00 ); if (len > 0) { frame_moveouter( rxbuf ); _output_frame( rxbuf, NULL ); frame_moveinner( rxbuf ); /* dbc_write( frame_startptr( rxbuf),frame_length( rxbuf));//todo for testing ptr = frame_startptr( rxbuf);//todo for testing dbc_putchar( 0xff);//todo for testing dbc_uint8( ptr[ (frame_length( rxbuf)-2)]);//todo for testing dbc_putchar( 0xff);//todo for testing frame_moveinner( rxbuf );//todo for testing*/ //led_off( LED_RED ); /* warning: You shouldn't wait too long in the while loop, or else * you may encounter frame loss. However, the program should still * work properly even the delay time is an arbitrary value. No error * are allowed in this case. */ //hal_delay( 500 ); led_toggle( LED_RED ); } aloha_evolve(mac, NULL ); } #endif frame_close( rxbuf ); aloha_close( mac ); cc2420_close( cc ); }