/*! \file drv_usb_dev.c \brief USB device mode low level driver \version 2023-06-30, V2.1.6, firmware for GD32F30x */ /* Copyright (c) 2023, GigaDevice Semiconductor Inc. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "drv_usb_hw.h" #include "drv_usb_core.h" #include "drv_usb_dev.h" /* endpoint 0 max packet length */ static const uint8_t EP0_MAXLEN[4] = { [DSTAT_EM_HS_PHY_30MHZ_60MHZ] = EP0MPL_64, [DSTAT_EM_FS_PHY_30MHZ_60MHZ] = EP0MPL_64, [DSTAT_EM_FS_PHY_48MHZ] = EP0MPL_64, [DSTAT_EM_LS_PHY_6MHZ] = EP0MPL_8 }; #ifdef USB_FS_CORE /* USB endpoint Tx FIFO size */ static uint16_t USBFS_TX_FIFO_SIZE[USBFS_MAX_EP_COUNT] = { (uint16_t)TX0_FIFO_FS_SIZE, (uint16_t)TX1_FIFO_FS_SIZE, (uint16_t)TX2_FIFO_FS_SIZE, (uint16_t)TX3_FIFO_FS_SIZE }; #endif /* USBFS_CORE */ /*! \brief initialize USB core registers for device mode \param[in] udev: pointer to USB device \param[out] none \retval operation status */ usb_status usb_devcore_init (usb_core_driver *udev) { uint8_t i; /* restart the PHY clock (maybe don't need to...) */ *udev->regs.PWRCLKCTL = 0U; /* config periodic frame interval to default value */ udev->regs.dr->DCFG &= ~DCFG_EOPFT; udev->regs.dr->DCFG |= FRAME_INTERVAL_80; udev->regs.dr->DCFG &= ~DCFG_DS; #ifdef USB_FS_CORE if (udev->bp.core_enum == (uint8_t)USB_CORE_ENUM_FS) { /* set full-speed PHY */ udev->regs.dr->DCFG |= USB_SPEED_INP_FULL; /* set Rx FIFO size */ usb_set_rxfifo(&udev->regs, RX_FIFO_FS_SIZE); /* set endpoint 0 to 3's Tx FIFO length and RAM address */ for (i = 0U; i < USBFS_MAX_EP_COUNT; i++) { usb_set_txfifo(&udev->regs, i, USBFS_TX_FIFO_SIZE[i]); } } #endif /* USB_FS_CORE */ /* make sure all FIFOs are flushed */ /* flush all Tx FIFOs */ (void)usb_txfifo_flush (&udev->regs, 0x10U); /* flush entire Rx FIFO */ (void)usb_rxfifo_flush (&udev->regs); /* clear all pending device interrupts */ udev->regs.dr->DIEPINTEN = 0U; udev->regs.dr->DOEPINTEN = 0U; udev->regs.dr->DAEPINT = 0xFFFFFFFFU; udev->regs.dr->DAEPINTEN = 0U; /* configure all IN/OUT endpoints */ for (i = 0U; i < udev->bp.num_ep; i++) { if (udev->regs.er_in[i]->DIEPCTL & DEPCTL_EPEN) { udev->regs.er_in[i]->DIEPCTL |= DEPCTL_EPD | DEPCTL_SNAK; } else { udev->regs.er_in[i]->DIEPCTL = 0U; } /* set IN endpoint transfer length to 0 */ udev->regs.er_in[i]->DIEPLEN = 0U; /* clear all pending IN endpoint interrupts */ udev->regs.er_in[i]->DIEPINTF = 0xFFU; if (udev->regs.er_out[i]->DOEPCTL & DEPCTL_EPEN) { udev->regs.er_out[i]->DOEPCTL |= DEPCTL_EPD | DEPCTL_SNAK; } else { udev->regs.er_out[i]->DOEPCTL = 0U; } /* set OUT endpoint transfer length to 0 */ udev->regs.er_out[i]->DOEPLEN = 0U; /* clear all pending OUT endpoint interrupts */ udev->regs.er_out[i]->DOEPINTF = 0xFFU; } udev->regs.dr->DIEPINTEN |= DIEPINTEN_EPTXFUDEN; (void)usb_devint_enable (udev); return USB_OK; } /*! \brief enable the USB device mode interrupts \param[in] udev: pointer to USB device \param[out] none \retval operation status */ usb_status usb_devint_enable (usb_core_driver *udev) { /* clear any pending USB OTG interrupts */ udev->regs.gr->GOTGINTF = 0xFFFFFFFFU; /* clear any pending interrupts */ udev->regs.gr->GINTF = 0xBFFFFFFFU; /* enable the USB wakeup and suspend interrupts */ udev->regs.gr->GINTEN = GINTEN_WKUPIE | GINTEN_SPIE; /* enable device_mode-related interrupts */ if ((uint8_t)USB_USE_FIFO == udev->bp.transfer_mode) { udev->regs.gr->GINTEN |= GINTEN_RXFNEIE; } udev->regs.gr->GINTEN |= GINTEN_RSTIE | GINTEN_ENUMFIE | GINTEN_IEPIE |\ GINTEN_OEPIE | GINTEN_SOFIE | GINTEN_ISOONCIE | GINTEN_ISOINCIE; #ifdef VBUS_SENSING_ENABLED udev->regs.gr->GINTEN |= GINTEN_SESIE | GINTEN_OTGIE; #endif /* VBUS_SENSING_ENABLED */ return USB_OK; } /*! \brief active the USB endpoint0 transaction \param[in] udev: pointer to USB device \param[in] transc: the USB endpoint0 transaction \param[out] none \retval operation status */ usb_status usb_transc0_active (usb_core_driver *udev, usb_transc *transc) { __IO uint32_t *reg_addr = NULL; uint8_t enum_speed = udev->regs.dr->DSTAT & DSTAT_ES; /* get the endpoint number */ uint8_t ep_num = transc->ep_addr.num; if (ep_num) { /* not endpoint 0 */ return USB_FAIL; } if (transc->ep_addr.dir) { reg_addr = &udev->regs.er_in[0]->DIEPCTL; } else { reg_addr = &udev->regs.er_out[0]->DOEPCTL; } /* endpoint 0 is activated after USB clock is enabled */ *reg_addr &= ~(DEPCTL_MPL | DEPCTL_EPTYPE | DIEPCTL_TXFNUM); /* set endpoint 0 maximum packet length */ *reg_addr |= EP0_MAXLEN[enum_speed]; /* activate endpoint */ *reg_addr |= ((uint32_t)transc->ep_type << 18U) | ((uint32_t)ep_num << 22U) | DEPCTL_SD0PID | DEPCTL_EPACT; return USB_OK; } /*! \brief active the USB transaction \param[in] udev: pointer to USB device \param[in] transc: the USB transaction \param[out] none \retval status */ usb_status usb_transc_active (usb_core_driver *udev, usb_transc *transc) { __IO uint32_t *reg_addr = NULL; uint32_t epinten = 0U; uint8_t enum_speed = udev->regs.dr->DSTAT & DSTAT_ES; /* get the endpoint number */ uint8_t ep_num = transc->ep_addr.num; /* enable endpoint interrupt number */ if (transc->ep_addr.dir) { reg_addr = &udev->regs.er_in[ep_num]->DIEPCTL; epinten = 1U << ep_num; } else { reg_addr = &udev->regs.er_out[ep_num]->DOEPCTL; epinten = 1U << (16U + ep_num); } /* if the endpoint is not active, need change the endpoint control register */ if (!(*reg_addr & DEPCTL_EPACT)) { *reg_addr &= ~(DEPCTL_MPL | DEPCTL_EPTYPE | DIEPCTL_TXFNUM); /* set endpoint maximum packet length */ if (0U == ep_num) { *reg_addr |= EP0_MAXLEN[enum_speed]; } else { *reg_addr |= transc->max_len; } /* activate endpoint */ *reg_addr |= ((uint32_t)transc->ep_type << 18U) | ((uint32_t)ep_num << 22U) | DEPCTL_SD0PID | DEPCTL_EPACT; } /* enable the interrupts for this endpoint */ udev->regs.dr->DAEPINTEN |= epinten; return USB_OK; } /*! \brief deactivate the USB transaction \param[in] udev: pointer to USB device \param[in] transc: the USB transaction \param[out] none \retval status */ usb_status usb_transc_deactivate(usb_core_driver *udev, usb_transc *transc) { uint32_t epinten = 0U; uint8_t ep_num = transc->ep_addr.num; /* disable endpoint interrupt number */ if (transc->ep_addr.dir) { epinten = 1U << ep_num; udev->regs.er_in[ep_num]->DIEPCTL &= ~DEPCTL_EPACT; } else { epinten = 1U << (ep_num + 16U); udev->regs.er_out[ep_num]->DOEPCTL &= ~DEPCTL_EPACT; } /* disable the interrupts for this endpoint */ udev->regs.dr->DAEPINTEN &= ~epinten; return USB_OK; } /*! \brief configure USB transaction to start IN transfer \param[in] udev: pointer to USB device \param[in] transc: the USB IN transaction \param[out] none \retval operation status */ usb_status usb_transc_inxfer (usb_core_driver *udev, usb_transc *transc) { usb_status status = USB_OK; uint8_t ep_num = transc->ep_addr.num; __IO uint32_t epctl = udev->regs.er_in[ep_num]->DIEPCTL; __IO uint32_t eplen = udev->regs.er_in[ep_num]->DIEPLEN; eplen &= ~(DEPLEN_TLEN | DEPLEN_PCNT); /* zero length packet or endpoint 0 */ if (0U == transc->xfer_len) { /* set transfer packet count to 1 */ eplen |= 1U << 19U; } else { /* set transfer packet count */ if (0U == ep_num) { transc->xfer_len = USB_MIN(transc->xfer_len, transc->max_len); eplen |= 1U << 19U; } else { eplen |= (((transc->xfer_len - 1U) + transc->max_len) / transc->max_len) << 19U; } /* set endpoint transfer length */ eplen |= transc->xfer_len; if (transc->ep_type == (uint8_t)USB_EPTYPE_ISOC) { eplen |= DIEPLEN_MCNT & (1U << 29U); } } udev->regs.er_in[ep_num]->DIEPLEN = eplen; if (transc->ep_type == (uint8_t)USB_EPTYPE_ISOC) { if (((udev->regs.dr->DSTAT & DSTAT_FNRSOF) >> 8U) & 0x01U) { epctl |= DEPCTL_SEVNFRM; } else { epctl |= DEPCTL_SODDFRM; } } /* enable the endpoint and clear the NAK */ epctl |= DEPCTL_CNAK | DEPCTL_EPEN; udev->regs.er_in[ep_num]->DIEPCTL = epctl; if ((uint8_t)USB_USE_FIFO == udev->bp.transfer_mode) { if (transc->ep_type != (uint8_t)USB_EPTYPE_ISOC) { /* enable the Tx FIFO empty interrupt for this endpoint */ if (transc->xfer_len > 0U) { udev->regs.dr->DIEPFEINTEN |= 1U << ep_num; } } else { (void)usb_txfifo_write (&udev->regs, transc->xfer_buf, ep_num, (uint16_t)transc->xfer_len); } } return status; } /*! \brief configure usb transaction to start OUT transfer \param[in] udev: pointer to usb device \param[in] transc: the usb OUT transaction \param[out] none \retval status */ usb_status usb_transc_outxfer (usb_core_driver *udev, usb_transc *transc) { usb_status status = USB_OK; uint8_t ep_num = transc->ep_addr.num; uint32_t epctl = udev->regs.er_out[ep_num]->DOEPCTL; uint32_t eplen = udev->regs.er_out[ep_num]->DOEPLEN; eplen &= ~(DEPLEN_TLEN | DEPLEN_PCNT); /* zero length packet or endpoint 0 */ if ((0U == transc->xfer_len) || (0U == ep_num)) { /* set the transfer length to max packet size */ eplen |= transc->max_len; /* set the transfer packet count to 1 */ eplen |= 1U << 19U; } else { /* configure the transfer size and packet count as follows: * pktcnt = N * xfersize = N * maxpacket */ uint32_t packet_count = (transc->xfer_len + transc->max_len - 1U) / transc->max_len; eplen |= packet_count << 19U; eplen |= packet_count * transc->max_len; } udev->regs.er_out[ep_num]->DOEPLEN = eplen; if (transc->ep_type == (uint8_t)USB_EPTYPE_ISOC) { if (transc->frame_num) { epctl |= DEPCTL_SD1PID; } else { epctl |= DEPCTL_SD0PID; } } /* enable the endpoint and clear the NAK */ epctl |= DEPCTL_EPEN | DEPCTL_CNAK; udev->regs.er_out[ep_num]->DOEPCTL = epctl; return status; } /*! \brief set the USB transaction STALL status \param[in] udev: pointer to USB device \param[in] transc: the USB transaction \param[out] none \retval status */ usb_status usb_transc_stall (usb_core_driver *udev, usb_transc *transc) { __IO uint32_t *reg_addr = NULL; uint8_t ep_num = transc->ep_addr.num; if (transc->ep_addr.dir) { reg_addr = &(udev->regs.er_in[ep_num]->DIEPCTL); /* set the endpoint disable bit */ if (*reg_addr & DEPCTL_EPEN) { *reg_addr |= DEPCTL_EPD; } } else { /* set the endpoint stall bit */ reg_addr = &(udev->regs.er_out[ep_num]->DOEPCTL); } /* set the endpoint stall bit */ *reg_addr |= DEPCTL_STALL; return USB_OK; } /*! \brief clear the USB transaction STALL status \param[in] udev: pointer to USB device \param[in] transc: the USB transaction \param[out] none \retval operation status */ usb_status usb_transc_clrstall(usb_core_driver *udev, usb_transc *transc) { __IO uint32_t *reg_addr = NULL; uint8_t ep_num = transc->ep_addr.num; if (transc->ep_addr.dir) { reg_addr = &(udev->regs.er_in[ep_num]->DIEPCTL); } else { reg_addr = &(udev->regs.er_out[ep_num]->DOEPCTL); } /* clear the endpoint stall bits */ *reg_addr &= ~DEPCTL_STALL; /* reset data PID of the periodic endpoints */ if ((transc->ep_type == (uint8_t)USB_EPTYPE_INTR) || (transc->ep_type == (uint8_t)USB_EPTYPE_BULK)) { *reg_addr |= DEPCTL_SD0PID; } return USB_OK; } /*! \brief read device IN endpoint interrupt flag register \param[in] udev: pointer to USB device \param[in] ep_num: endpoint number \param[out] none \retval interrupt value */ uint32_t usb_iepintr_read (usb_core_driver *udev, uint8_t ep_num) { uint32_t value = 0U, fifoemptymask, commonintmask; commonintmask = udev->regs.dr->DIEPINTEN; fifoemptymask = udev->regs.dr->DIEPFEINTEN; /* check FIFO empty interrupt enable bit */ commonintmask |= ((fifoemptymask >> ep_num) & 0x1U) << 7; value = udev->regs.er_in[ep_num]->DIEPINTF & commonintmask; return value; } /*! \brief configures OUT endpoint 0 to receive SETUP packets \param[in] udev: pointer to USB device \param[out] none \retval none */ void usb_ctlep_startout (usb_core_driver *udev) { /* set OUT endpoint 0 receive length to 24 bytes, 1 packet and 3 setup packets */ udev->regs.er_out[0]->DOEPLEN = DOEP0_TLEN(8U * 3U) | DOEP0_PCNT(1U) | DOEP0_STPCNT(3U); } /*! \brief active remote wakeup signaling \param[in] udev: pointer to USB device \param[out] none \retval none */ void usb_rwkup_active (usb_core_driver *udev) { if (udev->dev.pm.dev_remote_wakeup) { if (udev->regs.dr->DSTAT & DSTAT_SPST) { if (udev->bp.low_power) { /* ungate USB core clock */ *udev->regs.PWRCLKCTL &= ~(PWRCLKCTL_SHCLK | PWRCLKCTL_SUCLK); } /* active remote wakeup signaling */ udev->regs.dr->DCTL |= DCTL_RWKUP; usb_mdelay(5U); udev->regs.dr->DCTL &= ~DCTL_RWKUP; } } } /*! \brief active USB core clock \param[in] udev: pointer to USB device \param[out] none \retval none */ void usb_clock_active (usb_core_driver *udev) { if (udev->bp.low_power) { if (udev->regs.dr->DSTAT & DSTAT_SPST) { /* un-gate USB Core clock */ *udev->regs.PWRCLKCTL &= ~(PWRCLKCTL_SHCLK | PWRCLKCTL_SUCLK); } } } /*! \brief USB device suspend \param[in] udev: pointer to USB device \param[out] none \retval none */ void usb_dev_suspend (usb_core_driver *udev) { __IO uint32_t devstat = udev->regs.dr->DSTAT; if ((udev->bp.low_power) && (devstat & DSTAT_SPST)) { /* switch-off the USB clocks */ *udev->regs.PWRCLKCTL |= PWRCLKCTL_SHCLK; /* enter DEEP_SLEEP mode with LDO in low power mode */ pmu_to_deepsleepmode(PMU_LDO_LOWPOWER, PMU_LOWDRIVER_DISABLE, WFI_CMD); } } /*! \brief stop the device and clean up FIFOs \param[in] udev: pointer to USB device \param[out] none \retval none */ void usb_dev_stop (usb_core_driver *udev) { uint32_t i; udev->dev.cur_status = 1U; /* clear all interrupt flag and enable bits */ for (i = 0U; i < udev->bp.num_ep; i++) { udev->regs.er_in[i]->DIEPINTF = 0xFFU; udev->regs.er_out[i]->DOEPINTF = 0xFFU; } udev->regs.dr->DIEPINTEN = 0U; udev->regs.dr->DOEPINTEN = 0U; udev->regs.dr->DAEPINTEN = 0U; udev->regs.dr->DAEPINT = 0xFFFFFFFFU; /* flush the FIFO */ (void)usb_rxfifo_flush (&udev->regs); (void)usb_txfifo_flush (&udev->regs, 0x10U); }