// Process Connect command and prepare response // request: pointer to request data // response: pointer to response data // return: number of bytes in response static uint32_t DAP_Connect(uint8_t *request, uint8_t *response) { uint32_t port; if (*request == DAP_PORT_AUTODETECT) { port = DAP_DEFAULT_PORT; } else { port = *request; } semihost_disable(); switch (port) { #if (DAP_SWD != 0) case DAP_PORT_SWD: DAP_Data.debug_port = DAP_PORT_SWD; PORT_SWD_SETUP(); break; #endif #if (DAP_JTAG != 0) case DAP_PORT_JTAG: DAP_Data.debug_port = DAP_PORT_JTAG; PORT_JTAG_SETUP(); break; #endif default: *response = DAP_PORT_DISABLED; return (1); } *response = port; return (1); }
__task void main_task(void) { // State processing uint16_t flags; // LED uint8_t dap_led_value = 1; uint8_t cdc_led_value = 1; uint8_t msd_led_value = 1; // USB uint32_t usb_state_count; // thread running after usb connected started uint8_t thread_started = 0; // button state char button_activated; // string containing unique ID uint8_t * id_str; // Get a reference to this task main_task_id = os_tsk_self(); // leds gpio_init(); usbd_init(); swd_init(); // Turn on LED gpio_set_dap_led(1); gpio_set_cdc_led(1); gpio_set_msd_led(1); // Setup reset button gpio_enable_button_flag(main_task_id, FLAGS_MAIN_RESET); button_activated = 1; // USB usbd_connect(0); usb_busy = USB_IDLE; usb_busy_count = 0; usb_state = USB_CONNECTING; usb_state_count = USB_CONNECT_DELAY; // Update HTML version information file update_html_file(); // Start timer tasks os_tsk_create_user(timer_task_30mS, TIMER_TASK_30_PRIORITY, (void *)stk_timer_30_task, TIMER_TASK_30_STACK); // Target running target_set_state(RESET_RUN_WITH_DEBUG); // start semihost task semihost_init(); semihost_enable(); while(1) { os_evt_wait_or( FLAGS_MAIN_RESET // Put target in reset state | FLAGS_MAIN_90MS // 90mS tick | FLAGS_MAIN_30MS // 30mS tick | FLAGS_MAIN_POWERDOWN // Power down interface | FLAGS_MAIN_DISABLEDEBUG // Power down interface | FLAGS_MAIN_USB_DISCONNECT, // Disable target debug NO_TIMEOUT); // Find out what event happened flags = os_evt_get(); if (flags & FLAGS_MAIN_USB_DISCONNECT) { usb_busy = USB_IDLE; // USB not busy usb_state_count = 4; usb_state = USB_DISCONNECT_CONNECT; // disconnect the usb } if (flags & FLAGS_MAIN_RESET) { cdc_led_state = LED_OFF; gpio_set_cdc_led(0); //usbd_cdc_ser_flush(); if (send_uID) { // set the target in reset to not receive char on the serial port target_set_state(RESET_HOLD); // send uid id_str = get_uid_string(); USBD_CDC_ACM_DataSend(id_str, strlen((const char *)id_str)); send_uID = 0; } // Reset target target_set_state(RESET_RUN); cdc_led_state = LED_FLASH; gpio_set_cdc_led(1); button_activated = 0; } if (flags & FLAGS_MAIN_POWERDOWN) { // Stop semihost task semihost_disable(); // Disable debug target_set_state(NO_DEBUG); // Disconnect USB usbd_connect(0); // Turn off LED gpio_set_dap_led(0); gpio_set_cdc_led(0); gpio_set_msd_led(0); // TODO: put the interface chip in sleep mode while (1) { } } if (flags & FLAGS_MAIN_DISABLEDEBUG) { // Stop semihost task semihost_disable(); // Disable debug target_set_state(NO_DEBUG); } if (flags & FLAGS_MAIN_90MS) { if (!button_activated) { gpio_enable_button_flag(main_task_id, FLAGS_MAIN_RESET); button_activated = 1; } // Update USB busy status switch (usb_busy) { case USB_ACTIVE: if (DECZERO(usb_busy_count) == 0) { usb_busy=USB_IDLE; } break; case USB_IDLE: default: break; } // Update USB connect status switch (usb_state) { case USB_DISCONNECTING: // Wait until USB is idle before disconnecting if (usb_busy == USB_IDLE) { usbd_connect(0); usb_state = USB_DISCONNECTED; } break; case USB_DISCONNECT_CONNECT: // Wait until USB is idle before disconnecting if ((usb_busy == USB_IDLE) && (DECZERO(usb_state_count) == 0)) { usbd_connect(0); usb_state = USB_CONNECTING; // Update HTML file update_html_file(); } break; case USB_CONNECTING: // Wait before connecting if (DECZERO(usb_state_count) == 0) { usbd_connect(1); usb_state = USB_CHECK_CONNECTED; } break; case USB_CHECK_CONNECTED: if(usbd_configured()) { if (!thread_started) { os_tsk_create_user(hid_process, DAP_TASK_PRIORITY, (void *)stk_dap_task, DAP_TASK_STACK); serial_task_id = os_tsk_create_user(serial_process, SERIAL_TASK_PRIORITY, (void *)stk_serial_task, SERIAL_TASK_STACK); thread_started = 1; } usb_state = USB_CONNECTED; } break; case USB_CONNECTED: case USB_DISCONNECTED: default: break; } } // 30mS tick used for flashing LED when USB is busy if (flags & FLAGS_MAIN_30MS) { if (dap_led_usb_activity && ((dap_led_state == LED_FLASH) || (dap_led_state == LED_FLASH_PERMANENT))) { // Flash DAP LED ONCE if (dap_led_value) { dap_led_value = 0; } else { dap_led_value = 1; // Turn on if (dap_led_state == LED_FLASH) { dap_led_usb_activity = 0; } } // Update hardware gpio_set_dap_led(dap_led_value); } if (msd_led_usb_activity && ((msd_led_state == LED_FLASH) || (msd_led_state == LED_FLASH_PERMANENT))) { // Flash MSD LED ONCE if (msd_led_value) { msd_led_value = 0; } else { msd_led_value = 1; // Turn on if (msd_led_state == LED_FLASH) { msd_led_usb_activity = 0; } } // Update hardware gpio_set_msd_led(msd_led_value); } if (cdc_led_usb_activity && ((cdc_led_state == LED_FLASH) || (cdc_led_state == LED_FLASH_PERMANENT))) { // Flash CDC LED ONCE if (cdc_led_value) { cdc_led_value = 0; } else { cdc_led_value = 1; // Turn on if (cdc_led_state == LED_FLASH) { cdc_led_usb_activity = 0; } } // Update hardware gpio_set_cdc_led(cdc_led_value); } } } }
__task void main_task(void) { // State processing uint16_t flags; // LED uint8_t dap_led_value = 1; uint8_t cdc_led_value = 1; uint8_t msd_led_value = 1; // USB uint32_t usb_state_count; // thread running after usb connected started uint8_t thread_started = 0; // button state char button_activated; // string containing unique ID uint8_t * id_str; // Initialize our serial mailbox os_mbx_init(&serial_mailbox, sizeof(serial_mailbox)); // Get a reference to this task main_task_id = os_tsk_self(); // leds gpio_init(); // Turn off LED gpio_set_dap_led(1); gpio_set_cdc_led(1); gpio_set_msd_led(1); #ifdef BOARD_UBLOX_C027 PORT_SWD_SETUP(); // wait until reset output to the target is pulled high while (!PIN_nRESET_IN()) { /* wait doing nothing */ } os_dly_wait(4); // if the reset input from button is low then enter isp programming mode if (!(LPC_GPIO->B[19/*RESET_PIN*/ + (1/*RESET_PORT*/ << 5)] & 1)) { enter_isp(); } #endif usbd_init(); swd_init(); // Setup reset button gpio_enable_button_flag(main_task_id, FLAGS_MAIN_RESET); button_activated = 1; // USB usbd_connect(0); usb_busy = USB_IDLE; usb_busy_count = 0; usb_state = USB_CONNECTING; usb_state_count = USB_CONNECT_DELAY; // Update HTML version information file update_html_file(); // Start timer tasks os_tsk_create_user(timer_task_30mS, TIMER_TASK_30_PRIORITY, (void *)stk_timer_30_task, TIMER_TASK_30_STACK); #ifndef BOARD_UBLOX_C027 // Target running //target_set_state(RESET_RUN_WITH_DEBUG); #endif #ifdef BOARD_NRF51822AA // Target running target_set_state(RESET_RUN); #endif // start semihost task semihost_init(); semihost_enable(); while(1) { os_evt_wait_or( FLAGS_MAIN_RESET // Put target in reset state | FLAGS_MAIN_90MS // 90mS tick | FLAGS_MAIN_30MS // 30mS tick | FLAGS_MAIN_POWERDOWN // Power down interface | FLAGS_MAIN_DISABLEDEBUG // Power down interface #ifdef USE_USB_EJECT_INSERT | FLAGS_MAIN_USB_DISCONNECT // Disable target debug | FLAGS_MAIN_USB_MEDIA_EJECT, // Eject file system #else | FLAGS_MAIN_USB_DISCONNECT, // Disable target debug #endif NO_TIMEOUT); // Find out what event happened flags = os_evt_get(); if (flags & FLAGS_MAIN_USB_DISCONNECT) { usb_busy = USB_IDLE; // USB not busy usb_state_count = 4; usb_state = USB_DISCONNECT_CONNECT; // disconnect the usb } #ifdef USE_USB_EJECT_INSERT if (flags & FLAGS_MAIN_USB_MEDIA_EJECT) { EjectInsertMediaMode = EJECT_INSERT_WAIT_TO_EJECT; EjectInsertMediaCounter = EJECT_INSERT_DELAY_500MS; } #endif if (flags & FLAGS_MAIN_RESET) { cdc_led_state = LED_OFF; gpio_set_cdc_led(0); //usbd_cdc_ser_flush(); if (send_uID) { // set the target in reset to not receive char on the serial port target_set_state(RESET_HOLD); // send uid id_str = get_uid_string(); USBD_CDC_ACM_DataSend(id_str, strlen((const char *)id_str)); send_uID = 0; } // Reset target target_set_state(RESET_RUN); cdc_led_state = LED_FLASH; gpio_set_cdc_led(1); button_activated = 0; } if (flags & FLAGS_MAIN_POWERDOWN) { // Stop semihost task semihost_disable(); // Disable debug target_set_state(NO_DEBUG); // Disconnect USB usbd_connect(0); // Turn off LED gpio_set_dap_led(0); gpio_set_cdc_led(0); gpio_set_msd_led(0); // TODO: put the interface chip in sleep mode while (1) { } } if (flags & FLAGS_MAIN_DISABLEDEBUG) { // Stop semihost task semihost_disable(); // Disable debug target_set_state(NO_DEBUG); } if (flags & FLAGS_MAIN_90MS) { if (!button_activated) { gpio_enable_button_flag(main_task_id, FLAGS_MAIN_RESET); button_activated = 1; } #ifdef USE_USB_EJECT_INSERT if (EjectInsertMediaMode == EJECT_INSERT_WAIT_TO_EJECT) { if (--EjectInsertMediaCounter == 0) { // Have waited ~0.5 second, time to eject media EjectInsertMediaMode = EJECT_INSERT_WAIT_TO_INSERT; EjectInsertMediaCounter = EJECT_INSERT_DELAY_500MS; USBD_MSC_MediaReady = __FALSE; } } if ((EjectInsertMediaMode == EJECT_INSERT_WAIT_TO_INSERT) && !USBD_MSC_MediaReadyEx) { // The host computer have questioned the state and received // the message that the media has been removed if (--EjectInsertMediaCounter == 0) { // Have waited ~0.5 seconds after ejecting, time to insert media EjectInsertMediaMode = EJECT_INSERT_INACTIVE; USBD_MSC_MediaReady = __TRUE; } } #endif // Update USB busy status switch (usb_busy) { case USB_ACTIVE: if (DECZERO(usb_busy_count) == 0) { usb_busy=USB_IDLE; } break; case USB_IDLE: default: break; } // Update USB connect status switch (usb_state) { case USB_DISCONNECTING: // Wait until USB is idle before disconnecting if (usb_busy == USB_IDLE) { usbd_connect(0); usb_state = USB_DISCONNECTED; } break; case USB_DISCONNECT_CONNECT: // Wait until USB is idle before disconnecting if ((usb_busy == USB_IDLE) && (DECZERO(usb_state_count) == 0)) { usbd_connect(0); usb_state = USB_CONNECTING; // Update HTML file update_html_file(); // Delay the connecting state before reconnecting to the host - improved usage with VMs usb_state_count = 10; //(90ms * 10 = 900ms) } break; case USB_CONNECTING: // Wait before connecting if (DECZERO(usb_state_count) == 0) { usbd_connect(1); usb_state = USB_CHECK_CONNECTED; } break; case USB_CHECK_CONNECTED: if(usbd_configured()) { if (!thread_started) { os_tsk_create_user(hid_process, DAP_TASK_PRIORITY, (void *)stk_dap_task, DAP_TASK_STACK); serial_task_id = os_tsk_create_user(serial_process, SERIAL_TASK_PRIORITY, (void *)stk_serial_task, SERIAL_TASK_STACK); thread_started = 1; } usb_state = USB_CONNECTED; } break; case USB_CONNECTED: case USB_DISCONNECTED: default: break; } } // 30mS tick used for flashing LED when USB is busy if (flags & FLAGS_MAIN_30MS) { if (dap_led_usb_activity && ((dap_led_state == LED_FLASH) || (dap_led_state == LED_FLASH_PERMANENT))) { // Flash DAP LED ONCE if (dap_led_value) { dap_led_value = 0; } else { dap_led_value = 1; // Turn on if (dap_led_state == LED_FLASH) { dap_led_usb_activity = 0; } } // Update hardware gpio_set_dap_led(dap_led_value); } if (msd_led_usb_activity && ((msd_led_state == LED_FLASH) || (msd_led_state == LED_FLASH_PERMANENT))) { // Flash MSD LED ONCE if (msd_led_value) { msd_led_value = 0; } else { msd_led_value = 1; // Turn on if (msd_led_state == LED_FLASH) { msd_led_usb_activity = 0; } } // Update hardware gpio_set_msd_led(msd_led_value); } if (cdc_led_usb_activity && ((cdc_led_state == LED_FLASH) || (cdc_led_state == LED_FLASH_PERMANENT))) { // Flash CDC LED ONCE if (cdc_led_value) { cdc_led_value = 0; } else { cdc_led_value = 1; // Turn on if (cdc_led_state == LED_FLASH) { cdc_led_usb_activity = 0; } } // Update hardware gpio_set_cdc_led(cdc_led_value); } } } }