/** * @brief main routine for example * @return Function should not exit. */ int main(void) { USBD_API_INIT_PARAM_T usb_param; USB_CORE_DESCS_T desc; ErrorCode_t ret = LPC_OK; /* Initialize board and chip */ SystemCoreClockUpdate(); Board_Init(); /* Init millisecond timer tick driver */ systick_init(); /* enable clocks and pinmux */ usb_pin_clk_init(); /* initialize call back structures */ memset((void *) &usb_param, 0, sizeof(USBD_API_INIT_PARAM_T)); usb_param.usb_reg_base = LPC_USB_BASE + 0x200; usb_param.max_num_ep = 2; usb_param.mem_base = USB_STACK_MEM_BASE; usb_param.mem_size = USB_STACK_MEM_SIZE; /* Set the USB descriptors */ desc.device_desc = (uint8_t *) USB_DeviceDescriptor; desc.string_desc = (uint8_t *) USB_StringDescriptor; /* Note, to pass USBCV test full-speed only devices should have both * descriptor arrays point to same location and device_qualifier set * to 0. */ desc.high_speed_desc = USB_FsConfigDescriptor; desc.full_speed_desc = USB_FsConfigDescriptor; desc.device_qualifier = 0; /* USB Initialization */ ret = USBD_API->hw->Init(&g_hUsb, &desc, &usb_param); if (ret == LPC_OK) { /* Mice are generally low or full speed devices and not high speed. */ USBD_API->hw->ForceFullSpeed(g_hUsb, 1); ret = Keyboard_init(g_hUsb, (USB_INTERFACE_DESCRIPTOR *) &USB_FsConfigDescriptor[sizeof(USB_CONFIGURATION_DESCRIPTOR)], &usb_param.mem_base, &usb_param.mem_size); if (ret == LPC_OK) { /* enable USB interrupts */ NVIC_EnableIRQ(USB_IRQn); /* now connect */ USBD_API->hw->Connect(g_hUsb, 1); } } while (1) { /* Do Keyboard tasks */ Keyboard_Tasks(); /* Sleep until next IRQ happens */ __WFI(); } }
/** * @brief main routine for USBD keyboard example * @return Function should not exit. */ int main(void) { USBD_API_INIT_PARAM_T usb_param; USB_CORE_DESCS_T desc; ErrorCode_t ret = LPC_OK; USB_CORE_CTRL_T *pCtrl; /* Initialize board and chip */ SystemCoreClockUpdate(); Board_Init(); /* enable clocks and pinmux */ USB_init_pin_clk(); /* Init EDU-CIAA GPIOs */ ciaaIOInit(); /* Init USB API structure */ g_pUsbApi = (const USBD_API_T *) LPC_ROM_API->usbdApiBase; /* initialize call back structures */ memset((void *) &usb_param, 0, sizeof(USBD_API_INIT_PARAM_T)); usb_param.usb_reg_base = LPC_USB_BASE; usb_param.mem_base = USB_STACK_MEM_BASE; usb_param.mem_size = USB_STACK_MEM_SIZE; usb_param.max_num_ep = 2; /* Set the USB descriptors */ desc.device_desc = (uint8_t *) USB_DeviceDescriptor; desc.string_desc = (uint8_t *) USB_StringDescriptor; #ifdef USE_USB0 desc.high_speed_desc = USB_HsConfigDescriptor; desc.full_speed_desc = USB_FsConfigDescriptor; desc.device_qualifier = (uint8_t *) USB_DeviceQualifier; #else /* Note, to pass USBCV test full-speed only devices should have both * descriptor arrays point to same location and device_qualifier set * to 0. */ desc.high_speed_desc = USB_FsConfigDescriptor; desc.full_speed_desc = USB_FsConfigDescriptor; desc.device_qualifier = 0; #endif /* USB Initialization */ ret = USBD_API->hw->Init(&g_hUsb, &desc, &usb_param); if (ret == LPC_OK) { /* WORKAROUND for artf45032 ROM driver BUG: Due to a race condition there is the chance that a second NAK event will occur before the default endpoint0 handler has completed its preparation of the DMA engine for the first NAK event. This can cause certain fields in the DMA descriptors to be in an invalid state when the USB controller reads them, thereby causing a hang. */ pCtrl = (USB_CORE_CTRL_T *) g_hUsb; /* convert the handle to control structure */ g_Ep0BaseHdlr = pCtrl->ep_event_hdlr[0];/* retrieve the default EP0_OUT handler */ pCtrl->ep_event_hdlr[0] = EP0_patch;/* set our patch routine as EP0_OUT handler */ ret = Keyboard_init(g_hUsb, (USB_INTERFACE_DESCRIPTOR *) &USB_FsConfigDescriptor[sizeof(USB_CONFIGURATION_DESCRIPTOR)], &usb_param.mem_base, &usb_param.mem_size); if (ret == LPC_OK) { /* enable USB interrrupts */ NVIC_EnableIRQ(LPC_USB_IRQ); /* now connect */ USBD_API->hw->Connect(g_hUsb, 1); } } while (1) { /* Do Keyboard tasks */ Keyboard_Tasks(); /* Sleep until next IRQ happens */ __WFI(); } }