rt-thread/bsp/gd32105c-eval/Libraries/GD32F10x_usbd_driver/Include/usbd_regs.h

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2021-09-03 11:50:17 +08:00
/*!
\file usbd_regs.h
\brief USB device registers
\version 2014-12-26, V1.0.0, firmware for GD32F10x
\version 2017-06-20, V2.0.0, firmware for GD32F10x
\version 2018-07-31, V2.1.0, firmware for GD32F10x
*/
/*
Copyright (c) 2018, GigaDevice Semiconductor Inc.
All rights reserved.
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.
*/
#ifndef USBD_REGS_H
#define USBD_REGS_H
#include "usbd_conf.h"
/* USB device registers base address */
#define USBD USBD_BASE
#define USBD_RAM (APB1_BUS_BASE + 0x00006000U)
/* registers definitions */
/* common registers */
#define USBD_CTL (REG32(USBD + 0x40U)) /*!< control register */
#define USBD_INTF (REG32(USBD + 0x44U)) /*!< interrupt flag register */
#define USBD_STAT (REG32(USBD + 0x48U)) /*!< status register */
#define USBD_DADDR (REG32(USBD + 0x4CU)) /*!< device address register */
#define USBD_BADDR (REG32(USBD + 0x50U)) /*!< buffer address register */
/* endpoint control and status register */
#define USBD_EPxCS(ep_id) (REG32(USBD + (ep_id) * 4U)) /*!< endpoint x control and status register address */
/* LPM Registers */
#define USBD_LPMCS (REG32(USBD + 0x54U)) /*!< USBD LPM control and status register */
/* bits definitions */
/* USBD_CTL */
#define CTL_STIE BIT(15) /*!< successful transfer interrupt enable mask */
#define CTL_PMOUIE BIT(14) /*!< packet memory overrun/underrun interrupt enable mask */
#define CTL_ERRIE BIT(13) /*!< error interrupt enable mask */
#define CTL_WKUPIE BIT(12) /*!< wakeup interrupt enable mask */
#define CTL_SPSIE BIT(11) /*!< suspend state interrupt enable mask */
#define CTL_RSTIE BIT(10) /*!< reset interrupt enable mask */
#define CTL_SOFIE BIT(9) /*!< start of frame interrupt enable mask */
#define CTL_ESOFIE BIT(8) /*!< expected start of frame interrupt enable mask */
#define CTL_L1REQIE BIT(7) /*!< LPM L1 state request interrupt enable */
#define CTL_L1RSREQ BIT(5) /*!< LPM L1 resume request */
#define CTL_RSREQ BIT(4) /*!< resume request */
#define CTL_SETSPS BIT(3) /*!< set suspend state */
#define CTL_LOWM BIT(2) /*!< low-power mode at suspend state */
#define CTL_CLOSE BIT(1) /*!< goes to close state */
#define CTL_SETRST BIT(0) /*!< set USB reset */
/* USBD_INTF */
#define INTF_STIF BIT(15) /*!< successful transfer interrupt flag (read only bit) */
#define INTF_PMOUIF BIT(14) /*!< packet memory overrun/underrun interrupt flag (clear-only bit) */
#define INTF_ERRIF BIT(13) /*!< error interrupt flag (clear-only bit) */
#define INTF_WKUPIF BIT(12) /*!< wakeup interrupt flag (clear-only bit) */
#define INTF_SPSIF BIT(11) /*!< suspend state interrupt flag (clear-only bit) */
#define INTF_RSTIF BIT(10) /*!< reset interrupt flag (clear-only bit) */
#define INTF_SOFIF BIT(9) /*!< start of frame interrupt flag (clear-only bit) */
#define INTF_ESOFIF BIT(8) /*!< expected start of frame interrupt flag(clear-only bit) */
#define INTF_L1REQ BIT(7) /*!< LPM L1 transaction is successfully received and acknowledged */
#define INTF_DIR BIT(4) /*!< direction of transaction (read-only bit) */
#define INTF_EPNUM BITS(0, 3) /*!< endpoint number (read-only bit) */
/* USBD_STAT */
#define STAT_RXDP BIT(15) /*!< data plus line status */
#define STAT_RXDM BIT(14) /*!< data minus line status */
#define STAT_LOCK BIT(13) /*!< locked the USB */
#define STAT_SOFLN BITS(11, 12) /*!< SOF lost number */
#define STAT_FCNT BITS(0, 10) /*!< frame number count */
/* USBD_DADDR */
#define DADDR_USBEN BIT(7) /*!< USB module enable */
#define DADDR_USBDAR BITS(0, 6) /*!< USB device address */
/* USBD_EPxCS */
#define EPxCS_RX_ST BIT(15) /*!< endpoint reception successful transferred */
#define EPxCS_RX_DTG BIT(14) /*!< endpoint reception data PID toggle */
#define EPxCS_RX_STA BITS(12, 13) /*!< endpoint reception status bits */
#define EPxCS_SETUP BIT(11) /*!< endpoint setup transaction completed */
#define EPxCS_CTL BITS(9, 10) /*!< endpoint type control */
#define EPxCS_KCTL BIT(8) /*!< endpoint kind control */
#define EPxCS_TX_ST BIT(7) /*!< endpoint transmission successful transfer */
#define EPxCS_TX_DTG BIT(6) /*!< endpoint transmission data toggle */
#define EPxCS_TX_STA BITS(4, 5) /*!< endpoint transmission transfers status bits */
#define EPxCS_ADDR BITS(0, 3) /*!< endpoint address */
/* USBD_LPMCS */
#define LPMCS_BLSTAT BITS(4, 7) /*!< bLinkState value */
#define LPMCS_REMWK BIT(3) /*!< bRemoteWake value */
#define LPMCS_LPMACK BIT(1) /*!< LPM token acknowledge enable */
#define LPMCS_LPMEN BIT(0) /*!< LPM support enable */
/* constants definitions */
/* endpoint control and status register mask (no toggle fields) */
#define EPCS_MASK (EPxCS_RX_ST|EPxCS_SETUP|EPxCS_CTL|EPxCS_KCTL|EPxCS_TX_ST|EPxCS_ADDR)
/* EPxCS_CTL[1:0] endpoint type control */
#define ENDP_TYPE(regval) (EPxCS_CTL & ((regval) << 9U))
#define EP_BULK ENDP_TYPE(0U) /* bulk transfers */
#define EP_CONTROL ENDP_TYPE(1U) /* control transfers */
#define EP_ISO ENDP_TYPE(2U) /* isochronous transfers */
#define EP_INTERRUPT ENDP_TYPE(3U) /* interrupt transfers */
#define EP_CTL_MASK (~EPxCS_CTL & EPCS_MASK)
/* endpoint kind control mask */
#define EPKCTL_MASK (~EPxCS_KCTL & EPCS_MASK)
/* EPxCS_TX_STA[1:0] status for tx transfer */
#define ENDP_TXSTAT(regval) (EPxCS_TX_STA & ((regval) << 4U))
#define EPTX_DISABLED ENDP_TXSTAT(0U) /* transmission state is disabled */
#define EPTX_STALL ENDP_TXSTAT(1U) /* transmission state is STALL */
#define EPTX_NAK ENDP_TXSTAT(2U) /* transmission state is NAK */
#define EPTX_VALID ENDP_TXSTAT(3U) /* transmission state is enabled */
#define EPTX_DTGMASK (EPxCS_TX_STA | EPCS_MASK)
/* EPxCS_RX_STA[1:0] status for rx transfer */
#define ENDP_RXSTAT(regval) (EPxCS_RX_STA & ((regval) << 12U))
#define EPRX_DISABLED ENDP_RXSTAT(0U) /* reception state is disabled */
#define EPRX_STALL ENDP_RXSTAT(1U) /* reception state is STALL */
#define EPRX_NAK ENDP_RXSTAT(2U) /* reception state is NAK */
#define EPRX_VALID ENDP_RXSTAT(3U) /* reception state is enabled */
#define EPRX_DTGMASK (EPxCS_RX_STA | EPCS_MASK)
/* endpoint receive/transmission counter register bit definitions */
#define EPRCNT_BLKSIZ BIT(15) /* reception data block size */
#define EPRCNT_BLKNUM BITS(10, 14) /* reception data block number */
#define EPRCNT_CNT BITS(0, 9) /* reception data count */
#define EPTCNT_CNT BITS(0, 9) /* transmisson data count */
/* interrupt flag clear bits */
#define CLR_STIF (~INTF_STIF)
#define CLR_PMOUIF (~INTF_PMOUIF)
#define CLR_ERRIF (~INTF_ERRIF)
#define CLR_WKUPIF (~INTF_WKUPIF)
#define CLR_SPSIF (~INTF_SPSIF)
#define CLR_RSTIF (~INTF_RSTIF)
#define CLR_SOFIF (~INTF_SOFIF)
#define CLR_ESOFIF (~INTF_ESOFIF)
#define CLR_L1REQ (~INTF_L1REQ)
/* endpoint receive/transmission counter register bit offset */
#define BLKSIZE_OFFSET (0x01U)
#define BLKNUM_OFFSET (0x05U)
#define RXCNT_OFFSET (0x0AU)
#define TXCNT_OFFSET (0x0AU)
#define BLKSIZE32_MASK (0x1fU)
#define BLKSIZE2_MASK (0x01U)
#define BLKSIZE32_OFFSETMASK (0x05U)
#define BLKSIZE2_OFFSETMASK (0x01U)
/* double buffer endpoint direction */
typedef enum
{
DBUF_EP_IN, /* double buffer IN direction */
DBUF_EP_OUT, /* double buffer OUT direction */
DBUF_EP_ERR, /* double buffer errer direction */
}dbuf_ep_dir_enum;
/* endpoints address */
/* first bit is direction(0 for rx and 1 for tx) */
#define EP0_OUT ((uint8_t)0x00) /* out endpoint 0 address */
#define EP0_IN ((uint8_t)0x80) /* in endpoint 0 address */
#define EP1_OUT ((uint8_t)0x01) /* out endpoint 1 address */
#define EP1_IN ((uint8_t)0x81) /* in endpoint 1 address */
#define EP2_OUT ((uint8_t)0x02) /* out endpoint 2 address */
#define EP2_IN ((uint8_t)0x82) /* in endpoint 2 address */
#define EP3_OUT ((uint8_t)0x03) /* out endpoint 3 address */
#define EP3_IN ((uint8_t)0x83) /* in endpoint 3 address */
#define EP4_OUT ((uint8_t)0x04) /* out endpoint 4 address */
#define EP4_IN ((uint8_t)0x84) /* in endpoint 4 address */
#define EP5_OUT ((uint8_t)0x05) /* out endpoint 5 address */
#define EP5_IN ((uint8_t)0x85) /* in endpoint 5 address */
#define EP6_OUT ((uint8_t)0x06) /* out endpoint 6 address */
#define EP6_IN ((uint8_t)0x86) /* in endpoint 6 address */
#define EP7_OUT ((uint8_t)0x07) /* out endpoint 7 address */
#define EP7_IN ((uint8_t)0x87) /* in endpoint 7 address */
/* endpoints_identifier */
#define EP0 ((uint8_t)0) /* endpoint 0 ID */
#define EP1 ((uint8_t)1) /* endpoint 1 ID */
#define EP2 ((uint8_t)2) /* endpoint 2 ID */
#define EP3 ((uint8_t)3) /* endpoint 3 ID */
#define EP4 ((uint8_t)4) /* endpoint 4 ID */
#define EP5 ((uint8_t)5) /* endpoint 5 ID */
#define EP6 ((uint8_t)6) /* endpoint 6 ID */
#define EP7 ((uint8_t)7) /* endpoint 7 ID */
/* USBD operation macros */
/* set register value */
#define USBD_REG_SET(reg, regvalue) ((reg) = (uint16_t)(regvalue))
/* get register value */
#define USBD_REG_GET(reg) ((uint16_t)(reg))
#define _EP_ADDR_SET(ep_num, addr) USBD_REG_SET(USBD_EPxCS(ep_num), (USBD_REG_GET(USBD_EPxCS(ep_num)) & EPCS_MASK) | addr)
/* tx or rx transfer status setting (bits EPTX_STA[1:0]) */
#define USBD_ENDP_TX_STATUS_SET(ep_num, state) do {\
register uint16_t _regval; \
_regval = USBD_REG_GET(USBD_EPxCS(ep_num)) & (uint16_t)EPTX_DTGMASK;\
USBD_REG_SET(USBD_EPxCS(ep_num), ((_regval) ^ (state))); \
} while(0)
#define USBD_ENDP_RX_STATUS_SET(ep_num, state) do {\
register uint16_t _regval; \
_regval = USBD_REG_GET(USBD_EPxCS(ep_num)) & (uint16_t)EPRX_DTGMASK;\
USBD_REG_SET(USBD_EPxCS(ep_num), ((_regval) ^ (state))); \
} while(0)
/* tx or rx transfer status getting (bits EPxCS_RX_STA[1:0]) */
#define USBD_ENDP_TX_STATUS_GET(ep_num) (USBD_REG_GET(USBD_EPxCS(ep_num)) & EPxCS_TX_STA)
#define USBD_ENDP_RX_STATUS_GET(ep_num) (USBD_REG_GET(USBD_EPxCS(ep_num)) & EPxCS_RX_STA)
/* rx and tx transfer status setting (bits EPxCS_RX_STA[1:0] & EPxCS_TX_STA[1:0]) */
#define USBD_ENDP_RX_TX_STATUS_SET(ep_num, state_rx, state_tx) do {\
register uint16_t _regval; \
_regval = USBD_REG_GET(USBD_EPxCS(ep_num)) & (uint16_t)(EPRX_DTGMASK | EPxCS_TX_STA) ;\
USBD_REG_SET(USBD_EPxCS(ep_num), (((_regval) ^ (state_rx)) ^ (state_tx))); \
} while(0)
/* set and clear endpoint kind (bit EPxCS_KCTL) */
#define USBD_ENDP_KIND_SET(ep_num) (USBD_REG_SET(USBD_EPxCS(ep_num), ((USBD_REG_GET(USBD_EPxCS(ep_num)) | EPxCS_KCTL) & EPCS_MASK)))
#define USBD_ENDP_KIND_CLEAR(ep_num) (USBD_REG_SET(USBD_EPxCS(ep_num), (USBD_REG_GET(USBD_EPxCS(ep_num)) & EPKCTL_MASK)))
/* set and clear directly STATUS_OUT state of endpoint */
#define USBD_STATUS_OUT_SET(ep_num) USBD_ENDP_KIND_SET(ep_num)
#define USBD_STATUS_OUT_CLEAR(ep_num) USBD_ENDP_KIND_CLEAR(ep_num)
/* clear bit EPxCS_RX_ST/EPxCS_TX_ST in the endpoint control and status register */
#define USBD_ENDP_RX_STAT_CLEAR(ep_num) (USBD_REG_SET(USBD_EPxCS(ep_num), USBD_REG_GET(USBD_EPxCS(ep_num)) & 0x7FFFU & (uint16_t)EPCS_MASK))
#define USBD_ENDP_TX_STAT_CLEAR(ep_num) (USBD_REG_SET(USBD_EPxCS(ep_num), USBD_REG_GET(USBD_EPxCS(ep_num)) & 0xFF7FU & (uint16_t)EPCS_MASK))
/* toggle EPxCS_RX_DTG or EPxCS_TX_DTG bit in the endpoint control and status register */
#define USBD_DTG_RX_TOGGLE(ep_num) (USBD_REG_SET(USBD_EPxCS(ep_num), EPxCS_RX_DTG | (USBD_REG_GET(USBD_EPxCS(ep_num)) & EPCS_MASK)))
#define USBD_DTG_TX_TOGGLE(ep_num) (USBD_REG_SET(USBD_EPxCS(ep_num), EPxCS_TX_DTG | (USBD_REG_GET(USBD_EPxCS(ep_num)) & EPCS_MASK)))
/* clear EPxCS_RX_DTG or EPxCS_TX_DTG bit in the endpoint control and status register */
#define USBD_DTG_RX_CLEAR(ep_num) do {\
if ((USBD_REG_GET(USBD_EPxCS(ep_num)) & EPxCS_RX_DTG) != 0U) {\
USBD_DTG_RX_TOGGLE(ep_num);\
} else {\
}\
} while(0)
#define USBD_DTG_TX_CLEAR(ep_num) do {\
if ((USBD_REG_GET(USBD_EPxCS(ep_num)) & EPxCS_TX_DTG) != 0U) {\
USBD_DTG_TX_TOGGLE(ep_num);\
} else {\
}\
} while(0)
/* set and clear directly double buffered feature of endpoint */
#define USBD_ENDP_DOUBLE_BUF_SET(ep_num) USBD_ENDP_KIND_SET(ep_num)
#define USBD_ENDP_DOUBLE_BUF_CLEAR(ep_num) USBD_ENDP_KIND_CLEAR(ep_num)
/* toggle SW_BUF bit in the double buffered endpoint */
#define USBD_SWBUF_TX_TOGGLE(ep_num) USBD_DTG_RX_TOGGLE(ep_num)
#define USBD_SWBUF_RX_TOGGLE(ep_num) USBD_DTG_TX_TOGGLE(ep_num)
#endif /* USBD_REGS_H */