drivers/net/can/esd/esdacc.h - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */
 /* Copyright (C) 2015 - 2016 Thomas Körper, esd electronic system design gmbh
  * Copyright (C) 2017 - 2023 Stefan Mätje, esd electronics gmbh
  */

 #include <linux/bits.h>
 #include <linux/can/dev.h>
 #include <linux/kernel.h>
 #include <linux/netdevice.h>
 #include <linux/units.h>

 #define ACC_TS_FREQ_80MHZ (80 * HZ_PER_MHZ)
 #define ACC_I2C_ADDON_DETECT_DELAY_MS 10

 /* esdACC Overview Module */
 #define ACC_OV_OF_PROBE	0x0000
 #define ACC_OV_OF_VERSION 0x0004
 #define ACC_OV_OF_INFO 0x0008
 #define ACC_OV_OF_CANCORE_FREQ 0x000c
 #define ACC_OV_OF_TS_FREQ_LO 0x0010
 #define ACC_OV_OF_TS_FREQ_HI 0x0014
 #define ACC_OV_OF_IRQ_STATUS_CORES 0x0018
 #define ACC_OV_OF_TS_CURR_LO 0x001c
 #define ACC_OV_OF_TS_CURR_HI 0x0020
 #define ACC_OV_OF_IRQ_STATUS 0x0028
 #define ACC_OV_OF_MODE 0x002c
 #define ACC_OV_OF_BM_IRQ_COUNTER 0x0070
 #define ACC_OV_OF_BM_IRQ_MASK 0x0074
 #define ACC_OV_OF_MSI_DATA 0x0080
 #define ACC_OV_OF_MSI_ADDRESSOFFSET 0x0084

 /* Feature flags are contained in the upper 16 bit of the version
  * register at ACC_OV_OF_VERSION but only used with these masks after
  * extraction into an extra variable => (xx - 16).
  */
 #define ACC_OV_REG_FEAT_MASK_CANFD BIT(27 - 16)
 #define ACC_OV_REG_FEAT_MASK_NEW_PSC BIT(28 - 16)

 #define ACC_OV_REG_MODE_MASK_ENDIAN_LITTLE BIT(0)
 #define ACC_OV_REG_MODE_MASK_BM_ENABLE BIT(1)
 #define ACC_OV_REG_MODE_MASK_MODE_LED BIT(2)
 #define ACC_OV_REG_MODE_MASK_TIMER_ENABLE BIT(4)
 #define ACC_OV_REG_MODE_MASK_TIMER_ONE_SHOT BIT(5)
 #define ACC_OV_REG_MODE_MASK_TIMER_ABSOLUTE BIT(6)
 #define ACC_OV_REG_MODE_MASK_TIMER GENMASK(6, 4)
 #define ACC_OV_REG_MODE_MASK_TS_SRC GENMASK(8, 7)
 #define ACC_OV_REG_MODE_MASK_I2C_ENABLE BIT(11)
 #define ACC_OV_REG_MODE_MASK_MSI_ENABLE BIT(14)
 #define ACC_OV_REG_MODE_MASK_NEW_PSC_ENABLE BIT(15)
 #define ACC_OV_REG_MODE_MASK_FPGA_RESET BIT(31)

 /* esdACC CAN Core Module */
 #define ACC_CORE_OF_CTRL_MODE 0x0000
 #define ACC_CORE_OF_STATUS_IRQ 0x0008
 #define ACC_CORE_OF_BRP	0x000c
 #define ACC_CORE_OF_BTR	0x0010
 #define ACC_CORE_OF_FBTR 0x0014
 #define ACC_CORE_OF_STATUS 0x0030
 #define ACC_CORE_OF_TXFIFO_CONFIG 0x0048
 #define ACC_CORE_OF_TXFIFO_STATUS 0x004c
 #define ACC_CORE_OF_TX_STATUS_IRQ 0x0050
 #define ACC_CORE_OF_TX_ABORT_MASK 0x0054
 #define ACC_CORE_OF_BM_IRQ_COUNTER 0x0070
 #define ACC_CORE_OF_TXFIFO_ID 0x00c0
 #define ACC_CORE_OF_TXFIFO_DLC 0x00c4
 #define ACC_CORE_OF_TXFIFO_DATA_0 0x00c8
 #define ACC_CORE_OF_TXFIFO_DATA_1 0x00cc

 #define ACC_REG_CONTROL_MASK_MODE_RESETMODE BIT(0)
 #define ACC_REG_CONTROL_MASK_MODE_LOM BIT(1)
 #define ACC_REG_CONTROL_MASK_MODE_STM BIT(2)
 #define ACC_REG_CONTROL_MASK_MODE_TRANSEN BIT(5)
 #define ACC_REG_CONTROL_MASK_MODE_TS BIT(6)
 #define ACC_REG_CONTROL_MASK_MODE_SCHEDULE BIT(7)

 #define ACC_REG_CONTROL_MASK_IE_RXTX BIT(8)
 #define ACC_REG_CONTROL_MASK_IE_TXERROR BIT(9)
 #define ACC_REG_CONTROL_MASK_IE_ERRWARN BIT(10)
 #define ACC_REG_CONTROL_MASK_IE_OVERRUN BIT(11)
 #define ACC_REG_CONTROL_MASK_IE_TSI BIT(12)
 #define ACC_REG_CONTROL_MASK_IE_ERRPASS BIT(13)
 #define ACC_REG_CONTROL_MASK_IE_ALI BIT(14)
 #define ACC_REG_CONTROL_MASK_IE_BUSERR BIT(15)

 /* BRP and BTR register layout for CAN-Classic version */
 #define ACC_REG_BRP_CL_MASK_BRP GENMASK(8, 0)
 #define ACC_REG_BTR_CL_MASK_TSEG1 GENMASK(3, 0)
 #define ACC_REG_BTR_CL_MASK_TSEG2 GENMASK(18, 16)
 #define ACC_REG_BTR_CL_MASK_SJW GENMASK(25, 24)

 /* BRP and BTR register layout for CAN-FD version */
 #define ACC_REG_BRP_FD_MASK_BRP GENMASK(7, 0)
 #define ACC_REG_BTR_FD_MASK_TSEG1 GENMASK(7, 0)
 #define ACC_REG_BTR_FD_MASK_TSEG2 GENMASK(22, 16)
 #define ACC_REG_BTR_FD_MASK_SJW GENMASK(30, 24)

 /* 256 BM_MSGs of 32 byte size */
 #define ACC_CORE_DMAMSG_SIZE 32U
 #define ACC_CORE_DMABUF_SIZE (256U * ACC_CORE_DMAMSG_SIZE)

 enum acc_bmmsg_id {
 	BM_MSG_ID_RXTXDONE = 0x01,
 	BM_MSG_ID_TXABORT = 0x02,
 	BM_MSG_ID_OVERRUN = 0x03,
 	BM_MSG_ID_BUSERR = 0x04,
 	BM_MSG_ID_ERRPASSIVE = 0x05,
 	BM_MSG_ID_ERRWARN = 0x06,
 	BM_MSG_ID_TIMESLICE = 0x07,
 	BM_MSG_ID_HWTIMER = 0x08,
 	BM_MSG_ID_HOTPLUG = 0x09,
 };

 /* The struct acc_bmmsg_* structure declarations that follow here provide
  * access to the ring buffer of bus master messages maintained by the FPGA
  * bus master engine. All bus master messages have the same size of
  * ACC_CORE_DMAMSG_SIZE and a minimum alignment of ACC_CORE_DMAMSG_SIZE in
  * memory.
  *
  * All structure members are natural aligned. Therefore we should not need
  * a __packed attribute. All struct acc_bmmsg_* declarations have at least
  * reserved* members to fill the structure to the full ACC_CORE_DMAMSG_SIZE.
  *
  * A failure of this property due padding will be detected at compile time
  * by static_assert(sizeof(union acc_bmmsg) == ACC_CORE_DMAMSG_SIZE).
  */

 struct acc_bmmsg_rxtxdone {
 	u8 msg_id;
 	u8 txfifo_level;
 	u8 reserved1[2];
 	u8 txtsfifo_level;
 	u8 reserved2[3];
 	u32 id;
 	struct {
 		u8 len;
 		u8 txdfifo_idx;
 		u8 zeroes8;
 		u8 reserved;
 	} acc_dlc;
 	u8 data[CAN_MAX_DLEN];
 	/* Time stamps in struct acc_ov::timestamp_frequency ticks. */
 	u64 ts;
 };

 struct acc_bmmsg_txabort {
 	u8 msg_id;
 	u8 txfifo_level;
 	u16 abort_mask;
 	u8 txtsfifo_level;
 	u8 reserved2[1];
 	u16 abort_mask_txts;
 	u64 ts;
 	u32 reserved3[4];
 };

 struct acc_bmmsg_overrun {
 	u8 msg_id;
 	u8 txfifo_level;
 	u8 lost_cnt;
 	u8 reserved1;
 	u8 txtsfifo_level;
 	u8 reserved2[3];
 	u64 ts;
 	u32 reserved3[4];
 };

 struct acc_bmmsg_buserr {
 	u8 msg_id;
 	u8 txfifo_level;
 	u8 ecc;
 	u8 reserved1;
 	u8 txtsfifo_level;
 	u8 reserved2[3];
 	u64 ts;
 	u32 reg_status;
 	u32 reg_btr;
 	u32 reserved3[2];
 };

 struct acc_bmmsg_errstatechange {
 	u8 msg_id;
 	u8 txfifo_level;
 	u8 reserved1[2];
 	u8 txtsfifo_level;
 	u8 reserved2[3];
 	u64 ts;
 	u32 reg_status;
 	u32 reserved3[3];
 };

 struct acc_bmmsg_timeslice {
 	u8 msg_id;
 	u8 txfifo_level;
 	u8 reserved1[2];
 	u8 txtsfifo_level;
 	u8 reserved2[3];
 	u64 ts;
 	u32 reserved3[4];
 };

 struct acc_bmmsg_hwtimer {
 	u8 msg_id;
 	u8 reserved1[3];
 	u32 reserved2[1];
 	u64 timer;
 	u32 reserved3[4];
 };

 struct acc_bmmsg_hotplug {
 	u8 msg_id;
 	u8 reserved1[3];
 	u32 reserved2[7];
 };

 union acc_bmmsg {
 	u8 msg_id;
 	struct acc_bmmsg_rxtxdone rxtxdone;
 	struct acc_bmmsg_txabort txabort;
 	struct acc_bmmsg_overrun overrun;
 	struct acc_bmmsg_buserr buserr;
 	struct acc_bmmsg_errstatechange errstatechange;
 	struct acc_bmmsg_timeslice timeslice;
 	struct acc_bmmsg_hwtimer hwtimer;
 };

 /* Check size of union acc_bmmsg to be of expected size. */
 static_assert(sizeof(union acc_bmmsg) == ACC_CORE_DMAMSG_SIZE);

 struct acc_bmfifo {
 	const union acc_bmmsg *messages;
 	/* irq_cnt points to an u32 value where the esdACC FPGA deposits
 	 * the bm_fifo head index in coherent DMA memory. Only bits 7..0
 	 * are valid. Use READ_ONCE() to access this memory location.
 	 */
 	const u32 *irq_cnt;
 	u32 local_irq_cnt;
 	u32 msg_fifo_tail;
 };

 struct acc_core {
 	void __iomem *addr;
 	struct net_device *netdev;
 	struct acc_bmfifo bmfifo;
 	u8 tx_fifo_size;
 	u8 tx_fifo_head;
 	u8 tx_fifo_tail;
 };

 struct acc_ov {
 	void __iomem *addr;
 	struct acc_bmfifo bmfifo;
 	u32 timestamp_frequency;
 	u32 core_frequency;
 	u16 version;
 	u16 features;
 	u8 total_cores;
 	u8 active_cores;
 };

 struct acc_net_priv {
 	struct can_priv can; /* must be the first member! */
 	struct acc_core *core;
 	struct acc_ov *ov;
 };

 static inline u32 acc_read32(struct acc_core *core, unsigned short offs)
 {
 	return ioread32be(core->addr + offs);
 }

 static inline void acc_write32(struct acc_core *core,
 			       unsigned short offs, u32 v)
 {
 	iowrite32be(v, core->addr + offs);
 }

 static inline void acc_write32_noswap(struct acc_core *core,
 				      unsigned short offs, u32 v)
 {
 	iowrite32(v, core->addr + offs);
 }

 static inline void acc_set_bits(struct acc_core *core,
 				unsigned short offs, u32 mask)
 {
 	u32 v = acc_read32(core, offs);

 	v |= mask;
 	acc_write32(core, offs, v);
 }

 static inline void acc_clear_bits(struct acc_core *core,
 				  unsigned short offs, u32 mask)
 {
 	u32 v = acc_read32(core, offs);

 	v &= ~mask;
 	acc_write32(core, offs, v);
 }

 static inline int acc_resetmode_entered(struct acc_core *core)
 {
 	u32 ctrl = acc_read32(core, ACC_CORE_OF_CTRL_MODE);

 	return (ctrl & ACC_REG_CONTROL_MASK_MODE_RESETMODE) != 0;
 }

 static inline u32 acc_ov_read32(struct acc_ov *ov, unsigned short offs)
 {
 	return ioread32be(ov->addr + offs);
 }

 static inline void acc_ov_write32(struct acc_ov *ov,
 				  unsigned short offs, u32 v)
 {
 	iowrite32be(v, ov->addr + offs);
 }

 static inline void acc_ov_set_bits(struct acc_ov *ov,
 				   unsigned short offs, u32 b)
 {
 	u32 v = acc_ov_read32(ov, offs);

 	v |= b;
 	acc_ov_write32(ov, offs, v);
 }

 static inline void acc_ov_clear_bits(struct acc_ov *ov,
 				     unsigned short offs, u32 b)
 {
 	u32 v = acc_ov_read32(ov, offs);

 	v &= ~b;
 	acc_ov_write32(ov, offs, v);
 }

 static inline void acc_reset_fpga(struct acc_ov *ov)
 {
 	acc_ov_write32(ov, ACC_OV_OF_MODE, ACC_OV_REG_MODE_MASK_FPGA_RESET);

 	/* (Re-)start and wait for completion of addon detection on the I^2C bus */
 	acc_ov_set_bits(ov, ACC_OV_OF_MODE, ACC_OV_REG_MODE_MASK_I2C_ENABLE);
 	mdelay(ACC_I2C_ADDON_DETECT_DELAY_MS);
 }

 void acc_init_ov(struct acc_ov *ov, struct device *dev);
 void acc_init_bm_ptr(struct acc_ov *ov, struct acc_core *cores,
 		     const void *mem);
 int acc_open(struct net_device *netdev);
 int acc_close(struct net_device *netdev);
 netdev_tx_t acc_start_xmit(struct sk_buff *skb, struct net_device *netdev);
 int acc_get_berr_counter(const struct net_device *netdev,
 			 struct can_berr_counter *bec);
 int acc_set_mode(struct net_device *netdev, enum can_mode mode);
 int acc_set_bittiming(struct net_device *netdev);
 irqreturn_t acc_card_interrupt(struct acc_ov *ov, struct acc_core *cores);
	/* SPDX-License-Identifier: GPL-2.0-only */
	/* Copyright (C) 2015 - 2016 Thomas Körper, esd electronic system design gmbh
	* Copyright (C) 2017 - 2023 Stefan Mätje, esd electronics gmbh
	*/

	#include <linux/bits.h>
	#include <linux/can/dev.h>
	#include <linux/kernel.h>
	#include <linux/netdevice.h>
	#include <linux/units.h>

	#define ACC_TS_FREQ_80MHZ (80 * HZ_PER_MHZ)
	#define ACC_I2C_ADDON_DETECT_DELAY_MS 10

	/* esdACC Overview Module */
	#define ACC_OV_OF_PROBE 0x0000
	#define ACC_OV_OF_VERSION 0x0004
	#define ACC_OV_OF_INFO 0x0008
	#define ACC_OV_OF_CANCORE_FREQ 0x000c
	#define ACC_OV_OF_TS_FREQ_LO 0x0010
	#define ACC_OV_OF_TS_FREQ_HI 0x0014
	#define ACC_OV_OF_IRQ_STATUS_CORES 0x0018
	#define ACC_OV_OF_TS_CURR_LO 0x001c
	#define ACC_OV_OF_TS_CURR_HI 0x0020
	#define ACC_OV_OF_IRQ_STATUS 0x0028
	#define ACC_OV_OF_MODE 0x002c
	#define ACC_OV_OF_BM_IRQ_COUNTER 0x0070
	#define ACC_OV_OF_BM_IRQ_MASK 0x0074
	#define ACC_OV_OF_MSI_DATA 0x0080
	#define ACC_OV_OF_MSI_ADDRESSOFFSET 0x0084

	/* Feature flags are contained in the upper 16 bit of the version
	* register at ACC_OV_OF_VERSION but only used with these masks after
	* extraction into an extra variable => (xx - 16).
	*/
	#define ACC_OV_REG_FEAT_MASK_CANFD BIT(27 - 16)
	#define ACC_OV_REG_FEAT_MASK_NEW_PSC BIT(28 - 16)

	#define ACC_OV_REG_MODE_MASK_ENDIAN_LITTLE BIT(0)
	#define ACC_OV_REG_MODE_MASK_BM_ENABLE BIT(1)
	#define ACC_OV_REG_MODE_MASK_MODE_LED BIT(2)
	#define ACC_OV_REG_MODE_MASK_TIMER_ENABLE BIT(4)
	#define ACC_OV_REG_MODE_MASK_TIMER_ONE_SHOT BIT(5)
	#define ACC_OV_REG_MODE_MASK_TIMER_ABSOLUTE BIT(6)
	#define ACC_OV_REG_MODE_MASK_TIMER GENMASK(6, 4)
	#define ACC_OV_REG_MODE_MASK_TS_SRC GENMASK(8, 7)
	#define ACC_OV_REG_MODE_MASK_I2C_ENABLE BIT(11)
	#define ACC_OV_REG_MODE_MASK_MSI_ENABLE BIT(14)
	#define ACC_OV_REG_MODE_MASK_NEW_PSC_ENABLE BIT(15)
	#define ACC_OV_REG_MODE_MASK_FPGA_RESET BIT(31)

	/* esdACC CAN Core Module */
	#define ACC_CORE_OF_CTRL_MODE 0x0000
	#define ACC_CORE_OF_STATUS_IRQ 0x0008
	#define ACC_CORE_OF_BRP 0x000c
	#define ACC_CORE_OF_BTR 0x0010
	#define ACC_CORE_OF_FBTR 0x0014
	#define ACC_CORE_OF_STATUS 0x0030
	#define ACC_CORE_OF_TXFIFO_CONFIG 0x0048
	#define ACC_CORE_OF_TXFIFO_STATUS 0x004c
	#define ACC_CORE_OF_TX_STATUS_IRQ 0x0050
	#define ACC_CORE_OF_TX_ABORT_MASK 0x0054
	#define ACC_CORE_OF_BM_IRQ_COUNTER 0x0070
	#define ACC_CORE_OF_TXFIFO_ID 0x00c0
	#define ACC_CORE_OF_TXFIFO_DLC 0x00c4
	#define ACC_CORE_OF_TXFIFO_DATA_0 0x00c8
	#define ACC_CORE_OF_TXFIFO_DATA_1 0x00cc

	#define ACC_REG_CONTROL_MASK_MODE_RESETMODE BIT(0)
	#define ACC_REG_CONTROL_MASK_MODE_LOM BIT(1)
	#define ACC_REG_CONTROL_MASK_MODE_STM BIT(2)
	#define ACC_REG_CONTROL_MASK_MODE_TRANSEN BIT(5)
	#define ACC_REG_CONTROL_MASK_MODE_TS BIT(6)
	#define ACC_REG_CONTROL_MASK_MODE_SCHEDULE BIT(7)

	#define ACC_REG_CONTROL_MASK_IE_RXTX BIT(8)
	#define ACC_REG_CONTROL_MASK_IE_TXERROR BIT(9)
	#define ACC_REG_CONTROL_MASK_IE_ERRWARN BIT(10)
	#define ACC_REG_CONTROL_MASK_IE_OVERRUN BIT(11)
	#define ACC_REG_CONTROL_MASK_IE_TSI BIT(12)
	#define ACC_REG_CONTROL_MASK_IE_ERRPASS BIT(13)
	#define ACC_REG_CONTROL_MASK_IE_ALI BIT(14)
	#define ACC_REG_CONTROL_MASK_IE_BUSERR BIT(15)

	/* BRP and BTR register layout for CAN-Classic version */
	#define ACC_REG_BRP_CL_MASK_BRP GENMASK(8, 0)
	#define ACC_REG_BTR_CL_MASK_TSEG1 GENMASK(3, 0)
	#define ACC_REG_BTR_CL_MASK_TSEG2 GENMASK(18, 16)
	#define ACC_REG_BTR_CL_MASK_SJW GENMASK(25, 24)

	/* BRP and BTR register layout for CAN-FD version */
	#define ACC_REG_BRP_FD_MASK_BRP GENMASK(7, 0)
	#define ACC_REG_BTR_FD_MASK_TSEG1 GENMASK(7, 0)
	#define ACC_REG_BTR_FD_MASK_TSEG2 GENMASK(22, 16)
	#define ACC_REG_BTR_FD_MASK_SJW GENMASK(30, 24)

	/* 256 BM_MSGs of 32 byte size */
	#define ACC_CORE_DMAMSG_SIZE 32U
	#define ACC_CORE_DMABUF_SIZE (256U * ACC_CORE_DMAMSG_SIZE)

	enum acc_bmmsg_id {
	BM_MSG_ID_RXTXDONE = 0x01,
	BM_MSG_ID_TXABORT = 0x02,
	BM_MSG_ID_OVERRUN = 0x03,
	BM_MSG_ID_BUSERR = 0x04,
	BM_MSG_ID_ERRPASSIVE = 0x05,
	BM_MSG_ID_ERRWARN = 0x06,
	BM_MSG_ID_TIMESLICE = 0x07,
	BM_MSG_ID_HWTIMER = 0x08,
	BM_MSG_ID_HOTPLUG = 0x09,
	};

	/* The struct acc_bmmsg_* structure declarations that follow here provide
	* access to the ring buffer of bus master messages maintained by the FPGA
	* bus master engine. All bus master messages have the same size of
	* ACC_CORE_DMAMSG_SIZE and a minimum alignment of ACC_CORE_DMAMSG_SIZE in
	* memory.
	*
	* All structure members are natural aligned. Therefore we should not need
	* a __packed attribute. All struct acc_bmmsg_* declarations have at least
	* reserved* members to fill the structure to the full ACC_CORE_DMAMSG_SIZE.
	*
	* A failure of this property due padding will be detected at compile time
	* by static_assert(sizeof(union acc_bmmsg) == ACC_CORE_DMAMSG_SIZE).
	*/

	struct acc_bmmsg_rxtxdone {
	u8 msg_id;
	u8 txfifo_level;
	u8 reserved1[2];
	u8 txtsfifo_level;
	u8 reserved2[3];
	u32 id;
	struct {
	u8 len;
	u8 txdfifo_idx;
	u8 zeroes8;
	u8 reserved;
	} acc_dlc;
	u8 data[CAN_MAX_DLEN];
	/* Time stamps in struct acc_ov::timestamp_frequency ticks. */
	u64 ts;
	};

	struct acc_bmmsg_txabort {
	u8 msg_id;
	u8 txfifo_level;
	u16 abort_mask;
	u8 txtsfifo_level;
	u8 reserved2[1];
	u16 abort_mask_txts;
	u64 ts;
	u32 reserved3[4];
	};

	struct acc_bmmsg_overrun {
	u8 msg_id;
	u8 txfifo_level;
	u8 lost_cnt;
	u8 reserved1;
	u8 txtsfifo_level;
	u8 reserved2[3];
	u64 ts;
	u32 reserved3[4];
	};

	struct acc_bmmsg_buserr {
	u8 msg_id;
	u8 txfifo_level;
	u8 ecc;
	u8 reserved1;
	u8 txtsfifo_level;
	u8 reserved2[3];
	u64 ts;
	u32 reg_status;
	u32 reg_btr;
	u32 reserved3[2];
	};

	struct acc_bmmsg_errstatechange {
	u8 msg_id;
	u8 txfifo_level;
	u8 reserved1[2];
	u8 txtsfifo_level;
	u8 reserved2[3];
	u64 ts;
	u32 reg_status;
	u32 reserved3[3];
	};

	struct acc_bmmsg_timeslice {
	u8 msg_id;
	u8 txfifo_level;
	u8 reserved1[2];
	u8 txtsfifo_level;
	u8 reserved2[3];
	u64 ts;
	u32 reserved3[4];
	};

	struct acc_bmmsg_hwtimer {
	u8 msg_id;
	u8 reserved1[3];
	u32 reserved2[1];
	u64 timer;
	u32 reserved3[4];
	};

	struct acc_bmmsg_hotplug {
	u8 msg_id;
	u8 reserved1[3];
	u32 reserved2[7];
	};

	union acc_bmmsg {
	u8 msg_id;
	struct acc_bmmsg_rxtxdone rxtxdone;
	struct acc_bmmsg_txabort txabort;
	struct acc_bmmsg_overrun overrun;
	struct acc_bmmsg_buserr buserr;
	struct acc_bmmsg_errstatechange errstatechange;
	struct acc_bmmsg_timeslice timeslice;
	struct acc_bmmsg_hwtimer hwtimer;
	};

	/* Check size of union acc_bmmsg to be of expected size. */
	static_assert(sizeof(union acc_bmmsg) == ACC_CORE_DMAMSG_SIZE);

	struct acc_bmfifo {
	const union acc_bmmsg *messages;
	/* irq_cnt points to an u32 value where the esdACC FPGA deposits
	* the bm_fifo head index in coherent DMA memory. Only bits 7..0
	* are valid. Use READ_ONCE() to access this memory location.
	*/
	const u32 *irq_cnt;
	u32 local_irq_cnt;
	u32 msg_fifo_tail;
	};

	struct acc_core {
	void __iomem *addr;
	struct net_device *netdev;
	struct acc_bmfifo bmfifo;
	u8 tx_fifo_size;
	u8 tx_fifo_head;
	u8 tx_fifo_tail;
	};

	struct acc_ov {
	void __iomem *addr;
	struct acc_bmfifo bmfifo;
	u32 timestamp_frequency;
	u32 core_frequency;
	u16 version;
	u16 features;
	u8 total_cores;
	u8 active_cores;
	};

	struct acc_net_priv {
	struct can_priv can; /* must be the first member! */
	struct acc_core *core;
	struct acc_ov *ov;
	};

	static inline u32 acc_read32(struct acc_core *core, unsigned short offs)
	{
	return ioread32be(core->addr + offs);
	}

	static inline void acc_write32(struct acc_core *core,
	unsigned short offs, u32 v)
	{
	iowrite32be(v, core->addr + offs);
	}

	static inline void acc_write32_noswap(struct acc_core *core,
	unsigned short offs, u32 v)
	{
	iowrite32(v, core->addr + offs);
	}

	static inline void acc_set_bits(struct acc_core *core,
	unsigned short offs, u32 mask)
	{
	u32 v = acc_read32(core, offs);

	v \|= mask;
	acc_write32(core, offs, v);
	}

	static inline void acc_clear_bits(struct acc_core *core,
	unsigned short offs, u32 mask)
	{
	u32 v = acc_read32(core, offs);

	v &= ~mask;
	acc_write32(core, offs, v);
	}

	static inline int acc_resetmode_entered(struct acc_core *core)
	{
	u32 ctrl = acc_read32(core, ACC_CORE_OF_CTRL_MODE);

	return (ctrl & ACC_REG_CONTROL_MASK_MODE_RESETMODE) != 0;
	}

	static inline u32 acc_ov_read32(struct acc_ov *ov, unsigned short offs)
	{
	return ioread32be(ov->addr + offs);
	}

	static inline void acc_ov_write32(struct acc_ov *ov,
	unsigned short offs, u32 v)
	{
	iowrite32be(v, ov->addr + offs);
	}

	static inline void acc_ov_set_bits(struct acc_ov *ov,
	unsigned short offs, u32 b)
	{
	u32 v = acc_ov_read32(ov, offs);

	v \|= b;
	acc_ov_write32(ov, offs, v);
	}

	static inline void acc_ov_clear_bits(struct acc_ov *ov,
	unsigned short offs, u32 b)
	{
	u32 v = acc_ov_read32(ov, offs);

	v &= ~b;
	acc_ov_write32(ov, offs, v);
	}

	static inline void acc_reset_fpga(struct acc_ov *ov)
	{
	acc_ov_write32(ov, ACC_OV_OF_MODE, ACC_OV_REG_MODE_MASK_FPGA_RESET);

	/* (Re-)start and wait for completion of addon detection on the I^2C bus */
	acc_ov_set_bits(ov, ACC_OV_OF_MODE, ACC_OV_REG_MODE_MASK_I2C_ENABLE);
	mdelay(ACC_I2C_ADDON_DETECT_DELAY_MS);
	}

	void acc_init_ov(struct acc_ov ov, struct device dev);
	void acc_init_bm_ptr(struct acc_ov ov, struct acc_core cores,
	const void *mem);
	int acc_open(struct net_device *netdev);
	int acc_close(struct net_device *netdev);
	netdev_tx_t acc_start_xmit(struct sk_buff skb, struct net_device netdev);
	int acc_get_berr_counter(const struct net_device *netdev,
	struct can_berr_counter *bec);
	int acc_set_mode(struct net_device *netdev, enum can_mode mode);
	int acc_set_bittiming(struct net_device *netdev);
	irqreturn_t acc_card_interrupt(struct acc_ov ov, struct acc_core cores);