/**************************************************************************//** * * @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2020-12-25 Wayne First version * ******************************************************************************/ #include #if defined(BSP_USING_USBD) #include #include #include #include "NuMicro.h" #include #include "drv_sys.h" #define LOG_TAG "drv.usbd" //#define DBG_ENABLE #define DBG_SECTION_NAME "drv.usbd" //#define DBG_LEVEL DBG_ERROR #define DBG_COLOR #include /* Private define ---------------------------------------------------------------*/ #define ENABLE_FULL_SPEED_MODE_ONLY 0 /* 0: default hi-speed mode; 1: full-speed mode only */ /* Define EP maximum packet size */ #define CEP_MAX_PKT_SIZE 64 #define CEP_OTHER_MAX_PKT_SIZE 64 #define EPA_MAX_PKT_SIZE 512 #define EPA_OTHER_MAX_PKT_SIZE 64 #define EPB_MAX_PKT_SIZE 512 #define EPB_OTHER_MAX_PKT_SIZE 64 #define EPC_MAX_PKT_SIZE 64 #define EPC_OTHER_MAX_PKT_SIZE 64 #define EPD_MAX_PKT_SIZE 64 #define EPD_OTHER_MAX_PKT_SIZE 64 #define EPE_MAX_PKT_SIZE 512 #define EPE_OTHER_MAX_PKT_SIZE 64 #define EPF_MAX_PKT_SIZE 512 #define EPF_OTHER_MAX_PKT_SIZE 64 #define EPG_MAX_PKT_SIZE 64 #define EPG_OTHER_MAX_PKT_SIZE 64 #define EPH_MAX_PKT_SIZE 64 #define EPH_OTHER_MAX_PKT_SIZE 64 #define EPI_MAX_PKT_SIZE 512 #define EPI_OTHER_MAX_PKT_SIZE 64 #define EPJ_MAX_PKT_SIZE 512 #define EPJ_OTHER_MAX_PKT_SIZE 64 #define EPK_MAX_PKT_SIZE 64 #define EPK_OTHER_MAX_PKT_SIZE 64 #define EPL_MAX_PKT_SIZE 64 #define EPL_OTHER_MAX_PKT_SIZE 64 #define CEP_BUF_BASE 0 #define CEP_BUF_LEN CEP_MAX_PKT_SIZE #define EPA_BUF_BASE (CEP_BUF_BASE + CEP_BUF_LEN) #define EPA_BUF_LEN EPA_MAX_PKT_SIZE #define EPB_BUF_BASE (EPA_BUF_BASE + EPA_BUF_LEN) #define EPB_BUF_LEN EPB_MAX_PKT_SIZE #define EPC_BUF_BASE (EPB_BUF_BASE + EPB_BUF_LEN) #define EPC_BUF_LEN EPC_MAX_PKT_SIZE #define EPD_BUF_BASE (EPC_BUF_BASE + EPC_BUF_LEN) #define EPD_BUF_LEN EPD_MAX_PKT_SIZE #define EPE_BUF_BASE (EPD_BUF_BASE + EPD_BUF_LEN) #define EPE_BUF_LEN EPE_MAX_PKT_SIZE #define EPF_BUF_BASE (EPE_BUF_BASE + EPE_BUF_LEN) #define EPF_BUF_LEN EPF_MAX_PKT_SIZE #define EPG_BUF_BASE (EPF_BUF_BASE + EPF_BUF_LEN) #define EPG_BUF_LEN EPG_MAX_PKT_SIZE #define EPH_BUF_BASE (EPG_BUF_BASE + EPG_BUF_LEN) #define EPH_BUF_LEN EPH_MAX_PKT_SIZE #define EPI_BUF_BASE (EPH_BUF_BASE + EPH_BUF_LEN) #define EPI_BUF_LEN EPI_MAX_PKT_SIZE #define EPJ_BUF_BASE (EPI_BUF_BASE + EPI_BUF_LEN) #define EPJ_BUF_LEN EPJ_MAX_PKT_SIZE #define EPK_BUF_BASE (EPJ_BUF_BASE + EPJ_BUF_LEN) #define EPK_BUF_LEN EPK_MAX_PKT_SIZE #define EPL_BUF_BASE (EPK_BUF_BASE + EPK_BUF_LEN) #define EPL_BUF_LEN EPL_MAX_PKT_SIZE #define EPADR_SW2HW(address) ((address & USB_EPNO_MASK) - 1) /* for non-control endpoint */ #define EPADR_HW2SW(address) ((address & USB_EPNO_MASK) + 1) /* for non-control endpoint */ /* Private typedef --------------------------------------------------------------*/ typedef struct _nu_usbd_t { USBD_T *base; /* REG base */ char *name; IRQn_Type irqn; E_SYS_IPRST rstidx; E_SYS_IPCLK clkidx; uint8_t address_tmp; /* Keep assigned address for flow control */ uint8_t plugging_status; /* For debounce, 0: Unplug, 1: plug-in */ } nu_usbd_t; typedef struct { uint32_t u32BufferBase; uint32_t u32BufferLength; uint32_t u32OtherMaxPktSize; } S_EP_CXT; /* Private variables ------------------------------------------------------------*/ static nu_usbd_t nu_usbd = { .base = USBD, .name = "usbd", .irqn = IRQ_UDC, .rstidx = USBDRST, .clkidx = USBDCKEN, .address_tmp = 0, .plugging_status = 0, }; static struct udcd _rt_obj_udc; static S_EP_CXT _ep_cxt_pool[] = { { EPA_BUF_BASE, EPA_BUF_LEN, EPA_OTHER_MAX_PKT_SIZE}, //EPA { EPB_BUF_BASE, EPB_BUF_LEN, EPB_OTHER_MAX_PKT_SIZE}, //EPB { EPC_BUF_BASE, EPC_BUF_LEN, EPC_OTHER_MAX_PKT_SIZE}, //EPC { EPD_BUF_BASE, EPD_BUF_LEN, EPD_OTHER_MAX_PKT_SIZE}, //EPD { EPE_BUF_BASE, EPE_BUF_LEN, EPE_OTHER_MAX_PKT_SIZE}, //EPE { EPF_BUF_BASE, EPF_BUF_LEN, EPF_OTHER_MAX_PKT_SIZE}, //EPF { EPG_BUF_BASE, EPG_BUF_LEN, EPG_OTHER_MAX_PKT_SIZE}, //EPG { EPH_BUF_BASE, EPH_BUF_LEN, EPH_OTHER_MAX_PKT_SIZE}, //EPH { EPI_BUF_BASE, EPI_BUF_LEN, EPI_OTHER_MAX_PKT_SIZE}, //EPI { EPJ_BUF_BASE, EPJ_BUF_LEN, EPJ_OTHER_MAX_PKT_SIZE}, //EPJ { EPK_BUF_BASE, EPK_BUF_LEN, EPK_OTHER_MAX_PKT_SIZE}, //EPK { EPL_BUF_BASE, EPL_BUF_LEN, EPL_OTHER_MAX_PKT_SIZE} //EPL }; static struct ep_id _ep_pool[] = { {0x0, USB_EP_ATTR_CONTROL, USB_DIR_INOUT, CEP_MAX_PKT_SIZE, ID_ASSIGNED }, {EPADR_HW2SW(EPA), USB_EP_ATTR_BULK, USB_DIR_IN, EPA_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPB), USB_EP_ATTR_BULK, USB_DIR_OUT, EPB_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPC), USB_EP_ATTR_INT, USB_DIR_IN, EPC_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPD), USB_EP_ATTR_INT, USB_DIR_OUT, EPD_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPE), USB_EP_ATTR_BULK, USB_DIR_IN, EPE_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPF), USB_EP_ATTR_BULK, USB_DIR_OUT, EPF_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPG), USB_EP_ATTR_INT, USB_DIR_IN, EPG_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPH), USB_EP_ATTR_INT, USB_DIR_OUT, EPH_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPI), USB_EP_ATTR_BULK, USB_DIR_IN, EPE_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPJ), USB_EP_ATTR_BULK, USB_DIR_OUT, EPF_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPK), USB_EP_ATTR_INT, USB_DIR_IN, EPG_MAX_PKT_SIZE, ID_UNASSIGNED}, {EPADR_HW2SW(EPL), USB_EP_ATTR_INT, USB_DIR_OUT, EPH_MAX_PKT_SIZE, ID_UNASSIGNED}, {0xFF, USB_EP_ATTR_TYPE_MASK, USB_DIR_MASK, 0, ID_ASSIGNED }, }; static void _nu_ep_partition_set(int isHighSpeed) { int i; for (i = 0; i < USBD_MAX_EP; i++) { uint32_t u32NuEPTypeDef = 0x0; uint32_t u32NuEPDirDef = 0x0; if (_ep_pool[i + 1].type == USB_EP_ATTR_BULK) u32NuEPTypeDef = USB_EP_CFG_TYPE_BULK; else if (_ep_pool[i + 1].type == USB_EP_ATTR_INT) u32NuEPTypeDef = USB_EP_CFG_TYPE_INT; else continue; if (_ep_pool[i + 1].dir == USB_DIR_IN) u32NuEPDirDef = USB_EP_CFG_DIR_IN; else if (_ep_pool[i + 1].dir == USB_DIR_OUT) u32NuEPDirDef = USB_EP_CFG_DIR_OUT; else continue; USBD_SetEpBufAddr(i, _ep_cxt_pool[i].u32BufferBase, _ep_cxt_pool[i].u32BufferLength); if (isHighSpeed) USBD_SET_MAX_PAYLOAD(i, _ep_cxt_pool[i].u32BufferLength); else USBD_SET_MAX_PAYLOAD(i, _ep_cxt_pool[i].u32OtherMaxPktSize); USBD_ConfigEp(i, EPADR_HW2SW(i), u32NuEPTypeDef, u32NuEPDirDef); if (u32NuEPDirDef == USB_EP_CFG_DIR_OUT) USBD_ENABLE_EP_INT(i, USBD_EPINTEN_RXPKIEN_Msk); } //for } static void _nu_ep_partition(void) { /* Configure USB controller */ /* Enable USB BUS, CEP and EPA ~ EPH global interrupt */ USBD_ENABLE_USB_INT(USBD_GINTEN_USBIE_Msk | USBD_GINTEN_CEPIE_Msk | USBD_GINTEN_EPAIE_Msk | USBD_GINTEN_EPBIE_Msk | USBD_GINTEN_EPCIE_Msk | USBD_GINTEN_EPDIE_Msk | USBD_GINTEN_EPEIE_Msk | USBD_GINTEN_EPFIE_Msk | USBD_GINTEN_EPGIE_Msk | USBD_GINTEN_EPHIE_Msk | USBD_GINTEN_EPIIE_Msk | USBD_GINTEN_EPJIE_Msk | USBD_GINTEN_EPKIE_Msk | USBD_GINTEN_EPLIE_Msk); /* Enable BUS interrupt */ USBD_ENABLE_BUS_INT(USBD_BUSINTEN_DMADONEIEN_Msk | USBD_BUSINTEN_RESUMEIEN_Msk | USBD_BUSINTEN_RSTIEN_Msk | USBD_BUSINTEN_VBUSDETIEN_Msk); /* Reset Address to 0 */ USBD_SET_ADDR(0); /*****************************************************/ /* Control endpoint */ USBD_SetEpBufAddr(CEP, CEP_BUF_BASE, CEP_BUF_LEN); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk | USBD_CEPINTEN_STSDONEIEN_Msk); _nu_ep_partition_set(1); } static void NU_SetupStageCallback(nu_usbd_t *nu_udc) { struct urequest setup_packet; /* Setup packet process */ setup_packet.request_type = (uint8_t)(nu_udc->base->SETUP1_0 & 0xfful); setup_packet.bRequest = (uint8_t)((nu_udc->base->SETUP1_0 >> 8) & 0xfful); setup_packet.wValue = (uint16_t) nu_udc->base->SETUP3_2; setup_packet.wIndex = (uint16_t) nu_udc->base->SETUP5_4; setup_packet.wLength = (uint16_t) nu_udc->base->SETUP7_6; rt_usbd_ep0_setup_handler(&_rt_obj_udc, (struct urequest *)&setup_packet); } __STATIC_INLINE void nu_udc_enable(void) { USBD_ENABLE_USB(); } __STATIC_INLINE void nu_udc_disable(void) { int i; USBD_ENABLE_CEP_INT(0); USBD_CLR_CEP_INT_FLAG(0xffff); USBD_SET_CEP_STATE(inpw(REG_USBD_CEPCTL) | USB_CEPCTL_FLUSH); for (i = 0; i < USBD_MAX_EP; i++) USBD->EP[i].EPRSPCTL = USB_EP_RSPCTL_FLUSH | USB_EP_RSPCTL_TOGGLE; USBD_DISABLE_USB(); } static rt_err_t _ep_set_stall(rt_uint8_t address) { if (address & USB_EPNO_MASK) { USBD_SetEpStall(EPADR_SW2HW(address)); } else { /* Not support. Reply STALL. */ USBD_SET_CEP_STATE(USBD_CEPCTL_STALLEN_Msk); USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_SETUPPKIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk); } return RT_EOK; } static rt_err_t _ep_clear_stall(rt_uint8_t address) { if (address & USB_EPNO_MASK) { USBD_ClearEpStall(EPADR_SW2HW(address)); } return RT_EOK; } static rt_err_t _set_address(rt_uint8_t address) { if (0 != address) { nu_usbd.address_tmp = address; } return RT_EOK; } static rt_err_t _set_config(rt_uint8_t address) { return RT_EOK; } static rt_err_t _ep_enable(uep_t ep) { RT_ASSERT(ep != RT_NULL); RT_ASSERT(ep->ep_desc != RT_NULL); USBD->EP[EPADR_SW2HW(ep->ep_desc->bEndpointAddress)].EPRSPCTL = USB_EP_RSPCTL_TOGGLE; USBD->EP[EPADR_SW2HW(ep->ep_desc->bEndpointAddress)].EPCFG |= USB_EP_CFG_VALID; return RT_EOK; } static rt_err_t _ep_disable(uep_t ep) { RT_ASSERT(ep != RT_NULL); RT_ASSERT(ep->ep_desc != RT_NULL); USBD->EP[EPADR_SW2HW(ep->ep_desc->bEndpointAddress)].EPCFG &= ~USB_EP_CFG_VALID; return RT_EOK; } static rt_err_t _ep0_send_status(void) { /* Status Stage */ USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_STSDONEIF_Msk | USBD_CEPINTSTS_SETUPPKIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_STSDONEIEN_Msk); USBD_SET_CEP_STATE(USB_CEPCTL_NAKCLR); return RT_EOK; } __STATIC_INLINE void nu_buffer_cpy(rt_uint8_t address, void *buffer, rt_size_t size) { rt_uint32_t i, cnt; rt_uint32_t *_buf_word; rt_uint8_t *_buf_byte; _buf_word = (rt_uint32_t *)buffer; cnt = size >> 2; _buf_byte = (rt_uint8_t *)((rt_uint8_t *)buffer + (cnt * 4)); if ((address & USB_EPNO_MASK)) //EPs { if (address & USB_DIR_IN) //IN { /* Non-control endpoint IN*/ for (i = 0; i < cnt; i++) { USBD->EP[EPADR_SW2HW(address)].ep.EPDAT = _buf_word[i]; } for (i = 0ul; i < (size % 4ul); i++) USBD->EP[EPADR_SW2HW(address)].ep.EPDAT_BYTE = _buf_byte[i]; } else //OUT { for (i = 0; i < cnt; i++) { _buf_word[i] = USBD->EP[EPADR_SW2HW(address)].ep.EPDAT; } for (i = 0ul; i < (size % 4ul); i++) _buf_byte[i] = USBD->EP[EPADR_SW2HW(address)].ep.EPDAT_BYTE; } } else //Control { if (address & USB_DIR_IN) //IN { for (i = 0; i < cnt; i++) { USBD->cep.CEPDAT = _buf_word[i]; } for (i = 0ul; i < (size % 4ul); i++) USBD->cep.CEPDAT_BYTE = _buf_byte[i]; } else //OUT { for (i = 0; i < cnt; i++) { _buf_word[i] = USBD->cep.CEPDAT; } for (i = 0ul; i < (size % 4ul); i++) _buf_byte[i] = USBD->cep.CEPDAT_BYTE; } } } static rt_size_t _ep_read(rt_uint8_t address, void *buffer) { rt_size_t size = 0; RT_ASSERT(!(address & USB_DIR_IN)); if ((address & USB_EPNO_MASK)) { RT_ASSERT(buffer != RT_NULL); size = USBD->EP[EPADR_SW2HW(address)].EPDATCNT & 0xffff; nu_buffer_cpy(address, buffer, size); } else //control transfer { size = USBD->CEPRXCNT & 0xffff; if (size) { RT_ASSERT(_rt_obj_udc.stage == STAGE_DOUT); nu_buffer_cpy(address, buffer, size); } _ep0_send_status(); } return size; } static rt_size_t _ep_read_prepare(rt_uint8_t address, void *buffer, rt_size_t size) { RT_ASSERT(!(address & USB_DIR_IN)); if ((address & USB_EPNO_MASK)) { USBD_ENABLE_EP_INT(EPADR_SW2HW(address), USBD_EPINTEN_RXPKIEN_Msk); } else //control transfer { if (size) { RT_ASSERT(_rt_obj_udc.stage == STAGE_DOUT); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_OUTTKIEN_Msk); } else { RT_ASSERT(_rt_obj_udc.stage == STAGE_STATUS_OUT); USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_SETUPPKIF_Msk | USBD_CEPINTSTS_STSDONEIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk | USBD_CEPINTEN_STSDONEIEN_Msk); USBD_SET_CEP_STATE(USB_CEPCTL_NAKCLR); } } return size; } static rt_size_t _ep_write(rt_uint8_t address, void *buffer, rt_size_t size) { RT_ASSERT((address & USB_DIR_IN)); if (!(address & USB_EPNO_MASK)) //control transfer { if (size) { nu_buffer_cpy(address, buffer, size); USBD_START_CEP_IN(size); } else//zero length { USBD_SET_CEP_STATE(USB_CEPCTL_ZEROLEN); USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_STSDONEIF_Msk | USBD_CEPINTSTS_SETUPPKIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk | USBD_CEPINTEN_STSDONEIEN_Msk); } if (_rt_obj_udc.stage == STAGE_DIN) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_TXPKIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_TXPKIEN_Msk); } else if (_rt_obj_udc.stage == STAGE_DOUT) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_RXPKIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_RXPKIEN_Msk); } } else { /* Non-control endpoint IN*/ nu_buffer_cpy(address, buffer, size); USBD->EP[EPADR_SW2HW(address)].EPRSPCTL = USB_EP_RSPCTL_SHORTTXEN; // packet end USBD->EP[EPADR_SW2HW(address)].EPTXCNT = size; if ((USBD->EP[EPADR_SW2HW(address)].EPCFG & USBD_EPCFG_EPTYPE_Msk) == USB_EP_CFG_TYPE_INT) { USBD_ENABLE_EP_INT(EPADR_SW2HW(address), USBD_EPINTEN_INTKIEN_Msk); //for interrupt transfer timing } else { USBD_ENABLE_EP_INT(EPADR_SW2HW(address), USBD_EPINTEN_TXPKIEN_Msk); //for bulk transfer timing } } return size; } static rt_err_t _suspend(void) { return RT_EOK; } static rt_err_t _wakeup(void) { return RT_EOK; } static void nu_usbd_isr(int vector, void *param) { __IO rt_uint32_t IrqStL, IrqSt; int i; int IrqStAllEP; /* Igrone event if role is USBH*/ if (nu_sys_usb0_role() != USB0_ID_DEVICE) return; IrqStL = USBD->GINTSTS & USBD->GINTEN; /* get interrupt status */ if (!IrqStL) return; /* USB interrupt */ if (IrqStL & USBD_GINTSTS_USBIF_Msk) { IrqSt = USBD->BUSINTSTS & USBD->BUSINTEN; if (IrqSt & USBD_BUSINTSTS_SOFIF_Msk) { USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_SOFIF_Msk); rt_usbd_sof_handler(&_rt_obj_udc); } if (IrqSt & USBD_BUSINTSTS_RSTIF_Msk) { /* Reset USB device address */ USBD_SET_ADDR(0ul); USBD_ResetDMA(); for (i = 0; i < USBD_MAX_EP; i++) USBD->EP[i].EPRSPCTL = USBD_EPRSPCTL_FLUSH_Msk; if (USBD->OPER & 0x04) /* high speed */ { LOG_I("-High Speed-"); _nu_ep_partition_set(1); } else /* full speed */ { LOG_I("-Full Speed-"); _nu_ep_partition_set(0); } USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk); USBD_ENABLE_BUS_INT(USBD_BUSINTEN_RSTIEN_Msk | USBD_BUSINTEN_RESUMEIEN_Msk | USBD_BUSINTEN_SUSPENDIEN_Msk | USBD_BUSINTEN_VBUSDETIEN_Msk); USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_RSTIF_Msk); USBD_CLR_CEP_INT_FLAG(0x1ffc); for (i = 0ul; i < USBD_MAX_EP; i++) { if ((USBD->EP[i].EPCFG & 0x1ul) == 0x1ul) { USBD->EP[i].EPRSPCTL = USB_EP_RSPCTL_TOGGLE; } } rt_usbd_reset_handler(&_rt_obj_udc); USBD_ENABLE_USB(); } if (IrqSt & USBD_BUSINTSTS_RESUMEIF_Msk) { LOG_I("-Resume-"); USBD_ENABLE_BUS_INT(USBD_BUSINTEN_RSTIEN_Msk | USBD_BUSINTEN_SUSPENDIEN_Msk); USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_RESUMEIF_Msk); } if (IrqSt & USBD_BUSINTSTS_SUSPENDIF_Msk) { LOG_I("-Suspend-"); USBD_ENABLE_BUS_INT(USBD_BUSINTEN_RSTIEN_Msk | USBD_BUSINTEN_RESUMEIEN_Msk | USBD_BUSINTEN_VBUSDETIEN_Msk); USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_SUSPENDIF_Msk); } if (IrqSt & USBD_BUSINTSTS_HISPDIF_Msk) { USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk); USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_HISPDIF_Msk); } if (IrqSt & USBD_BUSINTSTS_DMADONEIF_Msk) { USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_DMADONEIF_Msk); if (!(USBD->DMACTL & USBD_DMACTL_DMARD_Msk)) { USBD_ENABLE_EP_INT(EPD, USBD_EPINTEN_RXPKIEN_Msk); } } if (IrqSt & USBD_BUSINTSTS_PHYCLKVLDIF_Msk) { USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_PHYCLKVLDIF_Msk); } if (IrqSt & USBD_BUSINTSTS_VBUSDETIF_Msk) { if (USBD_IS_ATTACHED()) { if (!nu_usbd.plugging_status) { LOG_I("PLUG IN"); /* USB Plug In */ nu_udc_enable(); rt_usbd_connect_handler(&_rt_obj_udc); nu_usbd.plugging_status = 1; } } else { if (nu_usbd.plugging_status) { LOG_I("Un-Plug"); /* USB Un-plug */ nu_udc_disable(); rt_usbd_disconnect_handler(&_rt_obj_udc); nu_usbd.plugging_status = 0; } } USBD_CLR_BUS_INT_FLAG(USBD_BUSINTSTS_VBUSDETIF_Msk); } } //if (IrqStL & USBD_GINTSTS_USBIF_Msk) /* Control Transfer */ if (IrqStL & USBD_GINTSTS_CEPIF_Msk) { IrqSt = USBD->CEPINTSTS & USBD->CEPINTEN; if (IrqSt & USBD_CEPINTSTS_SETUPTKIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_SETUPTKIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_SETUPPKIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_SETUPPKIF_Msk); NU_SetupStageCallback(&nu_usbd); USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_INTKIF_Msk | USBD_CEPINTSTS_RXPKIF_Msk | USBD_CEPINTSTS_STSDONEIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_OUTTKIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_OUTTKIF_Msk); rt_usbd_ep0_out_handler(&_rt_obj_udc, 0); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_RXPKIEN_Msk); return; } if (IrqSt & USBD_CEPINTSTS_INTKIF_Msk) { USBD_ENABLE_CEP_INT(0); USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_INTKIF_Msk); rt_usbd_ep0_in_handler(&_rt_obj_udc); return; } if (IrqSt & USBD_CEPINTSTS_PINGIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_PINGIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_TXPKIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_TXPKIF_Msk | USBD_CEPINTSTS_SETUPPKIF_Msk | USBD_CEPINTSTS_STSDONEIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_INTKIEN_Msk | USBD_CEPINTEN_SETUPPKIEN_Msk | USBD_CEPINTEN_STSDONEIEN_Msk); USBD_SET_CEP_STATE(USB_CEPCTL_NAKCLR); return; } if (IrqSt & USBD_CEPINTSTS_RXPKIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_SETUPPKIF_Msk | USBD_CEPINTSTS_STSDONEIF_Msk | USBD_CEPINTSTS_RXPKIF_Msk); USBD_SET_CEP_STATE(USB_CEPCTL_NAKCLR); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk | USBD_CEPINTEN_STSDONEIEN_Msk | USBD_CEPINTEN_RXPKIEN_Msk); return; } if (IrqSt & USBD_CEPINTSTS_NAKIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_NAKIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_STALLIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_STALLIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_ERRIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_ERRIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_STSDONEIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_STSDONEIF_Msk | USBD_CEPINTSTS_SETUPPKIF_Msk); USBD_ENABLE_CEP_INT(USBD_CEPINTEN_SETUPPKIEN_Msk); if ((USBD_GET_ADDR() == 0) && ((uint8_t)((nu_usbd.base->SETUP1_0 >> 8) & 0xfful) == SET_ADDRESS)) { USBD_SET_ADDR(nu_usbd.address_tmp); LOG_I("SET ADDR: 0x%02x", nu_usbd.address_tmp); nu_usbd.address_tmp = 0; } return; } if (IrqSt & USBD_CEPINTSTS_BUFFULLIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_BUFFULLIF_Msk); return; } if (IrqSt & USBD_CEPINTSTS_BUFEMPTYIF_Msk) { USBD_CLR_CEP_INT_FLAG(USBD_CEPINTSTS_BUFEMPTYIF_Msk); return; } } //if (IrqStL & USBD_GINTSTS_CEPIF_Msk) // For End-points IrqStAllEP = (IrqStL >> USBD_GINTSTS_EPAIF_Pos) & ((1 << USBD_MAX_EP) - 1); // Find the position of first '1' in allch_sts. while ((i = nu_ctz(IrqStAllEP)) != 32) { IrqSt = USBD->EP[i].EPINTSTS & USBD->EP[i].EPINTEN; if (_ep_pool[i + 1].dir == USB_DIR_IN) USBD_ENABLE_EP_INT(i, 0); USBD_CLR_EP_INT_FLAG(i, IrqSt); rt_usbd_ep_in_handler(&_rt_obj_udc, _ep_pool[i + 1].dir | EPADR_HW2SW(i), 0); IrqStAllEP &= ~(1 << i); } } static rt_err_t _init(rt_device_t device) { nu_sys_ipclk_enable(nu_usbd.clkidx); nu_sys_ip_reset(nu_usbd.rstidx); rt_hw_us_delay(1000); /* USBD Open */ USBD_ENABLE_USB(); while (1) { USBD->EP[EPA].EPMPS = 0x20ul; if (USBD->EP[EPA].EPMPS == 0x20ul) { break; } } /* Force SE0 */ USBD_SET_SE0(); _nu_ep_partition(); #if ENABLE_FULL_SPEED_MODE_ONLY USBD->OPER &= ~USBD_OPER_HISPDEN_Msk; #else USBD->OPER |= USBD_OPER_HISPDEN_Msk; #endif /* Install USBD interrupt */ rt_hw_interrupt_install(nu_usbd.irqn, nu_usbd_isr, &nu_usbd, nu_usbd.name); rt_hw_interrupt_set_priority(nu_usbd.irqn, IRQ_LEVEL_1); /* Enable USBD interrupt */ rt_hw_interrupt_umask(nu_usbd.irqn); /* Start transaction */ USBD_CLR_SE0(); /* Get currect cable status */ nu_usbd.plugging_status = USBD_IS_ATTACHED() >> USBD_PHYCTL_VBUSDET_Pos; return RT_EOK; } const static struct udcd_ops _udc_ops = { _set_address, _set_config, _ep_set_stall, _ep_clear_stall, _ep_enable, _ep_disable, _ep_read_prepare, _ep_read, _ep_write, _ep0_send_status, _suspend, _wakeup, }; #ifdef RT_USING_DEVICE_OPS const static struct rt_device_ops _ops = { _init, RT_NULL, RT_NULL, RT_NULL, RT_NULL, RT_NULL, }; #endif int nu_usbd_register(void) { rt_err_t result = RT_EOK; rt_memset((void *)&_rt_obj_udc, 0, sizeof(struct udcd)); _rt_obj_udc.parent.type = RT_Device_Class_USBDevice; #ifdef RT_USING_DEVICE_OPS _rt_obj_udc.parent.ops = &_ops; #else _rt_obj_udc.parent.init = _init; #endif _rt_obj_udc.parent.user_data = &nu_usbd; _rt_obj_udc.ops = &_udc_ops; /* Register endpoint information */ _rt_obj_udc.ep_pool = _ep_pool; _rt_obj_udc.ep0.id = &_ep_pool[0]; #if ENABLE_FULL_SPEED_MODE_ONLY _rt_obj_udc.device_is_hs = RT_FALSE; /* Enable Full-speed only */ #else _rt_obj_udc.device_is_hs = RT_TRUE; /* Support Hi-Speed */ #endif result = rt_device_register((rt_device_t)&_rt_obj_udc, nu_usbd.name, 0); RT_ASSERT(result == RT_EOK); return rt_usb_device_init(); } INIT_DEVICE_EXPORT(nu_usbd_register); #endif