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/******************************************************************************
* The MIT License
*
* Copyright (c) 2011 LeafLabs, LLC.
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use, copy,
* modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*****************************************************************************/
#include <libmaple/libmaple_types.h>
#include <libmaple/util.h>
#ifndef _USB_REG_MAP_H_
#define _USB_REG_MAP_H_
/* TODO:
* - Pick one of "endp", "ep" "endpt"
*/
/*
* Register map and base pointer
*/
#define USB_NR_EP_REGS 8
/** USB register map type */
typedef struct usb_reg_map {
__io uint32 EP[USB_NR_EP_REGS]; /**< Endpoint registers */
const uint32 RESERVED[8]; /**< Reserved */
__io uint32 CNTR; /**< Control register */
__io uint32 ISTR; /**< Interrupt status register */
__io uint32 FNR; /**< Frame number register */
__io uint32 DADDR; /**< Device address */
__io uint32 BTABLE; /**< @brief Buffer table address
*
* Address offset within the USB
* packet memory area which points
* to the base of the buffer
* descriptor table. Must be
* aligned to an 8 byte boundary.
*/
} usb_reg_map;
/** USB register map base pointer */
#define USB_BASE ((struct usb_reg_map*)0x40005C00)
/*
* Register bit definitions
*/
/* Endpoint registers (USB_EPnR) */
#define USB_EP_CTR_RX_BIT 15
#define USB_EP_DTOG_RX_BIT 14
#define USB_EP_SETUP_BIT 11
#define USB_EP_EP_KIND_BIT 8
#define USB_EP_CTR_TX_BIT 7
#define USB_EP_DTOG_TX_BIT 6
#define USB_EP_CTR_RX BIT(USB_EP_CTR_RX_BIT)
#define USB_EP_DTOG_RX BIT(USB_EP_DTOG_RX_BIT)
#define USB_EP_STAT_RX (0x3 << 12)
#define USB_EP_STAT_RX_DISABLED (0x0 << 12)
#define USB_EP_STAT_RX_STALL (0x1 << 12)
#define USB_EP_STAT_RX_NAK (0x2 << 12)
#define USB_EP_STAT_RX_VALID (0x3 << 12)
#define USB_EP_SETUP BIT(USB_EP_SETUP_BIT)
#define USB_EP_EP_TYPE (0x3 << 9)
#define USB_EP_EP_TYPE_BULK (0x0 << 9)
#define USB_EP_EP_TYPE_CONTROL (0x1 << 9)
#define USB_EP_EP_TYPE_ISO (0x2 << 9)
#define USB_EP_EP_TYPE_INTERRUPT (0x3 << 9)
#define USB_EP_EP_KIND BIT(USB_EP_EP_KIND_BIT)
#define USB_EP_CTR_TX BIT(USB_EP_CTR_TX_BIT)
#define USB_EP_DTOG_TX BIT(USB_EP_DTOG_TX_BIT)
#define USB_EP_STAT_TX (0x3 << 4)
#define USB_EP_STAT_TX_DISABLED (0x0 << 4)
#define USB_EP_STAT_TX_STALL (0x1 << 4)
#define USB_EP_STAT_TX_NAK (0x2 << 4)
#define USB_EP_STAT_TX_VALID (0x3 << 4)
#define USB_EP_EA 0xF
/* Control register (USB_CNTR) */
#define USB_CNTR_CTRM_BIT 15
#define USB_CNTR_PMAOVERM_BIT 14
#define USB_CNTR_ERRM_BIT 13
#define USB_CNTR_WKUPM_BIT 12
#define USB_CNTR_SUSPM_BIT 11
#define USB_CNTR_RESETM_BIT 10
#define USB_CNTR_SOFM_BIT 9
#define USB_CNTR_ESOFM_BIT 8
#define USB_CNTR_RESUME_BIT 4
#define USB_CNTR_FSUSP_BIT 3
#define USB_CNTR_LP_MODE_BIT 2
#define USB_CNTR_PDWN_BIT 1
#define USB_CNTR_FRES_BIT 0
#define USB_CNTR_CTRM BIT(USB_CNTR_CTRM_BIT)
#define USB_CNTR_PMAOVERM BIT(USB_CNTR_PMAOVERM_BIT)
#define USB_CNTR_ERRM BIT(USB_CNTR_ERRM_BIT)
#define USB_CNTR_WKUPM BIT(USB_CNTR_WKUPM_BIT)
#define USB_CNTR_SUSPM BIT(USB_CNTR_SUSPM_BIT)
#define USB_CNTR_RESETM BIT(USB_CNTR_RESETM_BIT)
#define USB_CNTR_SOFM BIT(USB_CNTR_SOFM_BIT)
#define USB_CNTR_ESOFM BIT(USB_CNTR_ESOFM_BIT)
#define USB_CNTR_RESUME BIT(USB_CNTR_RESUME_BIT)
#define USB_CNTR_FSUSP BIT(USB_CNTR_FSUSP_BIT)
#define USB_CNTR_LP_MODE BIT(USB_CNTR_LP_MODE_BIT)
#define USB_CNTR_PDWN BIT(USB_CNTR_PDWN_BIT)
#define USB_CNTR_FRES BIT(USB_CNTR_FRES_BIT)
/* Interrupt status register (USB_ISTR) */
#define USB_ISTR_CTR_BIT 15
#define USB_ISTR_PMAOVR_BIT 14
#define USB_ISTR_ERR_BIT 13
#define USB_ISTR_WKUP_BIT 12
#define USB_ISTR_SUSP_BIT 11
#define USB_ISTR_RESET_BIT 10
#define USB_ISTR_SOF_BIT 9
#define USB_ISTR_ESOF_BIT 8
#define USB_ISTR_DIR_BIT 4
#define USB_ISTR_CTR BIT(USB_ISTR_CTR_BIT)
#define USB_ISTR_PMAOVR BIT(USB_ISTR_PMAOVR_BIT)
#define USB_ISTR_ERR BIT(USB_ISTR_ERR_BIT)
#define USB_ISTR_WKUP BIT(USB_ISTR_WKUP_BIT)
#define USB_ISTR_SUSP BIT(USB_ISTR_SUSP_BIT)
#define USB_ISTR_RESET BIT(USB_ISTR_RESET_BIT)
#define USB_ISTR_SOF BIT(USB_ISTR_SOF_BIT)
#define USB_ISTR_ESOF BIT(USB_ISTR_ESOF_BIT)
#define USB_ISTR_DIR BIT(USB_ISTR_DIR_BIT)
#define USB_ISTR_EP_ID 0xF
/* Frame number register (USB_FNR) */
#define USB_FNR_RXDP_BIT 15
#define USB_FNR_RXDM_BIT 14
#define USB_FNR_LCK_BIT 13
#define USB_FNR_RXDP BIT(USB_FNR_RXDP_BIT)
#define USB_FNR_RXDM BIT(USB_FNR_RXDM_BIT)
#define USB_FNR_LCK BIT(USB_FNR_LCK_BIT)
#define USB_FNR_LSOF (0x3 << 11)
#define USB_FNR_FN 0x7FF
/* Device address (USB_DADDR) */
#define USB_DADDR_EF_BIT 7
#define USB_DADDR_ADD6_BIT 6
#define USB_DADDR_ADD5_BIT 5
#define USB_DADDR_ADD4_BIT 4
#define USB_DADDR_ADD3_BIT 3
#define USB_DADDR_ADD2_BIT 2
#define USB_DADDR_ADD1_BIT 1
#define USB_DADDR_ADD0_BIT 0
#define USB_DADDR_EF BIT(USB_DADDR_EF_BIT)
#define USB_DADDR_ADD6 BIT(USB_DADDR_ADD6_BIT)
#define USB_DADDR_ADD5 BIT(USB_DADDR_ADD5_BIT)
#define USB_DADDR_ADD4 BIT(USB_DADDR_ADD4_BIT)
#define USB_DADDR_ADD3 BIT(USB_DADDR_ADD3_BIT)
#define USB_DADDR_ADD2 BIT(USB_DADDR_ADD2_BIT)
#define USB_DADDR_ADD1 BIT(USB_DADDR_ADD1_BIT)
#define USB_DADDR_ADD0 BIT(USB_DADDR_ADD0_BIT)
/* Buffer table address (USB_BTABLE) */
#define USB_BTABLE_BTABLE (0x1FFF << 3)
/*
* Register convenience routines
*/
#define __EP_CTR_NOP (USB_EP_CTR_RX | USB_EP_CTR_TX)
#define __EP_NONTOGGLE (USB_EP_CTR_RX | USB_EP_SETUP | \
USB_EP_EP_TYPE | USB_EP_EP_KIND | \
USB_EP_CTR_TX | USB_EP_EA)
static inline void usb_clear_ctr_rx(uint8 ep) {
uint32 epr = USB_BASE->EP[ep];
USB_BASE->EP[ep] = epr & ~USB_EP_CTR_RX & __EP_NONTOGGLE;
}
static inline void usb_clear_ctr_tx(uint8 ep) {
uint32 epr = USB_BASE->EP[ep];
USB_BASE->EP[ep] = epr & ~USB_EP_CTR_TX & __EP_NONTOGGLE;
}
static inline void usb_set_ep_rx_stat(uint8 ep, uint32 status) {
uint32 epr = USB_BASE->EP[ep];
epr &= ~(USB_EP_STAT_TX | USB_EP_DTOG_RX | USB_EP_DTOG_TX);
epr |= __EP_CTR_NOP;
epr ^= status;
USB_BASE->EP[ep] = epr;
}
static inline void usb_set_ep_tx_stat(uint8 ep, uint32 status) {
uint32 epr = USB_BASE->EP[ep];
epr &= ~(USB_EP_STAT_RX | USB_EP_DTOG_RX | USB_EP_DTOG_TX);
epr |= __EP_CTR_NOP;
epr ^= status;
USB_BASE->EP[ep] = epr;
}
static inline void usb_set_ep_type(uint8 ep, uint32 type) {
uint32 epr = USB_BASE->EP[ep];
epr &= ~USB_EP_EP_TYPE & __EP_NONTOGGLE;
epr |= type;
USB_BASE->EP[ep] = epr;
}
static inline void usb_set_ep_kind(uint8 ep, uint32 kind) {
uint32 epr = USB_BASE->EP[ep];
epr &= ~USB_EP_EP_KIND & __EP_NONTOGGLE;
epr |= kind;
USB_BASE->EP[ep] = epr;
}
static inline void usb_clear_status_out(uint8 ep) {
usb_set_ep_kind(ep, 0);
}
/*
* Packet memory area (PMA) base pointer
*/
/**
* @brief USB packet memory area (PMA) base pointer.
*
* The USB PMA is SRAM shared between USB and CAN. The USB peripheral
* accesses this memory directly via the packet buffer interface. */
#define USB_PMA_BASE ((__io void*)0x40006000)
/*
* PMA conveniences
*/
void usb_copy_to_pma(const uint8 *buf, uint16 len, uint16 pma_offset);
void usb_copy_from_pma(uint8 *buf, uint16 len, uint16 pma_offset);
static inline void* usb_pma_ptr(uint32 offset) {
return (void*)(USB_PMA_BASE + 2 * offset);
}
/*
* BTABLE
*/
/* (Forward-declared) BTABLE entry.
*
* The BTABLE can be viewed as an array of usb_btable_ent values;
* these vary in structure according to the configuration of the
* endpoint.
*/
union usb_btable_ent;
/* Bidirectional endpoint BTABLE entry */
typedef struct usb_btable_bidi {
__io uint16 addr_tx; const uint16 PAD1;
__io uint16 count_tx; const uint16 PAD2;
__io uint16 addr_rx; const uint16 PAD3;
__io uint16 count_rx; const uint16 PAD4;
} usb_btable_bidi;
/* Unidirectional receive-only endpoint BTABLE entry */
typedef struct usb_btable_uni_rx {
__io uint16 empty1; const uint16 PAD1;
__io uint16 empty2; const uint16 PAD2;
__io uint16 addr_rx; const uint16 PAD3;
__io uint16 count_rx; const uint16 PAD4;
} usb_btable_uni_rx;
/* Unidirectional transmit-only endpoint BTABLE entry */
typedef struct usb_btable_uni_tx {
__io uint16 addr_tx; const uint16 PAD1;
__io uint16 count_tx; const uint16 PAD2;
__io uint16 empty1; const uint16 PAD3;
__io uint16 empty2; const uint16 PAD4;
} usb_btable_uni_tx;
/* Double-buffered transmission endpoint BTABLE entry */
typedef struct usb_btable_dbl_tx {
__io uint16 addr_tx0; const uint16 PAD1;
__io uint16 count_tx0; const uint16 PAD2;
__io uint16 addr_tx1; const uint16 PAD3;
__io uint16 count_tx1; const uint16 PAD4;
} usb_btable_dbl_tx;
/* Double-buffered reception endpoint BTABLE entry */
typedef struct usb_btable_dbl_rx {
__io uint16 addr_rx0; const uint16 PAD1;
__io uint16 count_rx0; const uint16 PAD2;
__io uint16 addr_rx1; const uint16 PAD3;
__io uint16 count_rx1; const uint16 PAD4;
} usb_btable_dbl_rx;
/* TODO isochronous endpoint entries */
/* Definition for above forward-declared BTABLE entry. */
typedef union usb_btable_ent {
usb_btable_bidi bidi;
usb_btable_uni_rx u_rx;
usb_btable_uni_tx u_tx;
usb_btable_dbl_tx d_tx;
usb_btable_dbl_rx d_rx;
} usb_btable_ent;
/*
* BTABLE conveniences
*/
/* TODO (?) Convert usages of the many (and lengthily-named)
* accessors/mutators below to just manipulating usb_btable_entry
* values. */
static inline uint32* usb_btable_ptr(uint32 offset) {
return (uint32*)usb_pma_ptr(USB_BASE->BTABLE + offset);
}
static inline usb_btable_ent *usb_btable(void) {
return (usb_btable_ent*)usb_btable_ptr(0);
}
/* TX address */
static inline uint32* usb_ep_tx_addr_ptr(uint8 ep) {
return usb_btable_ptr(ep * 8);
}
static inline uint16 usb_get_ep_tx_addr(uint8 ep) {
return (uint16)*usb_ep_tx_addr_ptr(ep);
}
static inline void usb_set_ep_tx_addr(uint8 ep, uint16 addr) {
uint32 *tx_addr = usb_ep_tx_addr_ptr(ep);
*tx_addr = addr & ~0x1;
}
/* RX address */
static inline uint32* usb_ep_rx_addr_ptr(uint8 ep) {
return usb_btable_ptr(ep * 8 + 4);
}
static inline uint16 usb_get_ep_rx_addr(uint8 ep) {
return (uint16)*usb_ep_rx_addr_ptr(ep);
}
static inline void usb_set_ep_rx_addr(uint8 ep, uint16 addr) {
uint32 *rx_addr = usb_ep_rx_addr_ptr(ep);
*rx_addr = addr & ~0x1;
}
/* TX count (doesn't cover double-buffered and isochronous in) */
static inline uint32* usb_ep_tx_count_ptr(uint8 ep) {
return usb_btable_ptr(ep * 8 + 2);
}
static inline uint16 usb_get_ep_tx_count(uint8 ep) {
/* FIXME: this is broken somehow; calling it seems to
* confuse/crash the chip. */
return (uint16)(*usb_ep_tx_count_ptr(ep) & 0x3FF);
}
static inline void usb_set_ep_tx_count(uint8 ep, uint16 count) {
uint32 *txc = usb_ep_tx_count_ptr(ep);
*txc = count;
}
/* RX count */
static inline uint32* usb_ep_rx_count_ptr(uint8 ep) {
return usb_btable_ptr(ep * 8 + 6);
}
static inline uint16 usb_get_ep_rx_count(uint8 ep) {
return (uint16)*usb_ep_rx_count_ptr(ep) & 0x3FF;
}
void usb_set_ep_rx_count(uint8 ep, uint16 count);
/*
* Misc. types
*/
typedef enum usb_ep {
USB_EP0,
USB_EP1,
USB_EP2,
USB_EP3,
USB_EP4,
USB_EP5,
USB_EP6,
USB_EP7,
} usb_ep;
typedef enum usb_ep_type {
USB_EP_T_CTL = USB_EP_EP_TYPE_CONTROL,
USB_EP_T_BULK = USB_EP_EP_TYPE_BULK,
USB_EP_T_INT = USB_EP_EP_TYPE_INTERRUPT,
USB_EP_T_ISO = USB_EP_EP_TYPE_ISO
} usb_ep_type;
typedef enum usb_ep_stat {
USB_EP_ST_RX_DIS = USB_EP_STAT_RX_DISABLED,
USB_EP_ST_RX_STL = USB_EP_STAT_RX_STALL,
USB_EP_ST_RX_NAK = USB_EP_STAT_RX_NAK,
USB_EP_ST_RX_VAL = USB_EP_STAT_RX_VALID,
USB_EP_ST_TX_DIS = USB_EP_STAT_TX_DISABLED,
USB_EP_ST_TX_STL = USB_EP_STAT_TX_STALL,
USB_EP_ST_TX_NAK = USB_EP_STAT_TX_NAK,
USB_EP_ST_TX_VAL = USB_EP_STAT_TX_VALID
} usb_ep_stat;
#endif
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