dev/marvell/if_mvxpevar.h

1.7    andvar /*	$NetBSD: if_mvxpevar.h,v 1.7 2022/02/16 22:00:56 andvar Exp $	*/
1.1  hsuenaga /*
1.1  hsuenaga  * Copyright (c) 2015 Internet Initiative Japan Inc.
1.1  hsuenaga  * All rights reserved.
1.1  hsuenaga  *
1.1  hsuenaga  * Redistribution and use in source and binary forms, with or without
1.1  hsuenaga  * modification, are permitted provided that the following conditions
1.1  hsuenaga  * are met:
1.1  hsuenaga  * 1. Redistributions of source code must retain the above copyright
1.1  hsuenaga  *    notice, this list of conditions and the following disclaimer.
1.1  hsuenaga  * 2. Redistributions in binary form must reproduce the above copyright
1.1  hsuenaga  *    notice, this list of conditions and the following disclaimer in the
1.1  hsuenaga  *    documentation and/or other materials provided with the distribution.
1.1  hsuenaga  *
1.1  hsuenaga  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  hsuenaga  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
1.1  hsuenaga  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
1.1  hsuenaga  * DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
1.1  hsuenaga  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
1.1  hsuenaga  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
1.1  hsuenaga  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  hsuenaga  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
1.1  hsuenaga  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
1.1  hsuenaga  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  hsuenaga  * POSSIBILITY OF SUCH DAMAGE.
1.1  hsuenaga  */
1.1  hsuenaga #ifndef _IF_MVXPEVAR_H_
1.1  hsuenaga #define _IF_MVXPEVAR_H_
1.2  hsuenaga #include <net/if.h>
1.2  hsuenaga #include <dev/marvell/mvxpbmvar.h>
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Limit of packet sizes.
1.1  hsuenaga  */
1.1  hsuenaga #define MVXPE_HWHEADER_SIZE	2		/* Marvell Header */
1.1  hsuenaga #define MVXPE_MRU		2000		/* Max Receive Unit */
1.1  hsuenaga #define MVXPE_MTU		MVXPE_MRU	/* Max Transmit Unit */
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Default limit of queue length
1.1  hsuenaga  *
1.1  hsuenaga  * queue 0 is lowest priority and queue 7 is highest priority.
1.1  hsuenaga  *
1.1  hsuenaga  * XXX: packet classifier is not implement yet
1.1  hsuenaga  */
1.3    hikaru #define MVXPE_RX_QUEUE_LIMIT_0	IFQ_MAXLEN
1.2  hsuenaga #define MVXPE_RX_QUEUE_LIMIT_1	8
1.2  hsuenaga #define MVXPE_RX_QUEUE_LIMIT_2	8
1.2  hsuenaga #define MVXPE_RX_QUEUE_LIMIT_3	8
1.2  hsuenaga #define MVXPE_RX_QUEUE_LIMIT_4	8
1.2  hsuenaga #define MVXPE_RX_QUEUE_LIMIT_5	8
1.2  hsuenaga #define MVXPE_RX_QUEUE_LIMIT_6	8
1.3    hikaru #define MVXPE_RX_QUEUE_LIMIT_7	8
1.2  hsuenaga
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_0	IFQ_MAXLEN
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_1	8
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_2	8
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_3	8
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_4	8
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_5	8
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_6	8
1.2  hsuenaga #define MVXPE_TX_QUEUE_LIMIT_7	8
1.2  hsuenaga
1.2  hsuenaga /* interrupt is triggered when corossing (queuelen / RATIO) */
1.2  hsuenaga #define MVXPE_RXTH_RATIO	8
1.2  hsuenaga #define MVXPE_RXTH_REFILL_RATIO	2
1.2  hsuenaga #define MVXPE_TXTH_RATIO	8
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Device Register access
1.1  hsuenaga  */
1.1  hsuenaga #define MVXPE_READ(sc, reg) \
1.1  hsuenaga 	bus_space_read_4((sc)->sc_iot, (sc)->sc_ioh, (reg))
1.1  hsuenaga #define MVXPE_WRITE(sc, reg, val) \
1.1  hsuenaga 	bus_space_write_4((sc)->sc_iot, (sc)->sc_ioh, (reg), (val))
1.1  hsuenaga
1.1  hsuenaga #define MVXPE_READ_REGION(sc, reg, val, c) \
1.1  hsuenaga 	bus_space_read_region_4((sc)->sc_iot, (sc)->sc_ioh, (reg), (val), (c))
1.1  hsuenaga #define MVXPE_WRITE_REGION(sc, reg, val, c) \
1.1  hsuenaga 	bus_space_write_region_4((sc)->sc_iot, (sc)->sc_ioh, (reg), (val), (c))
1.1  hsuenaga
1.1  hsuenaga #define MVXPE_READ_MIB(sc, reg) \
1.1  hsuenaga 	bus_space_read_4((sc)->sc_iot, (sc)->sc_mibh, (reg))
1.1  hsuenaga
1.1  hsuenaga #define MVXPE_IS_LINKUP(sc) \
1.1  hsuenaga 	(MVXPE_READ((sc), MVXPE_PSR) & MVXPE_PSR_LINKUP)
1.1  hsuenaga
1.2  hsuenaga #define MVXPE_IS_QUEUE_BUSY(queues, q) \
1.2  hsuenaga 	((((queues) >> (q)) & 0x1))
1.2  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * EEE: Lower Power Idle config
1.1  hsuenaga  * Default timer is duration of MTU sized frame transmission.
1.1  hsuenaga  * The timer can be negotiated by LLDP protocol, but we have no
1.1  hsuenaga  * support.
1.1  hsuenaga  */
1.1  hsuenaga #define MVXPE_LPI_TS		(MVXPE_MRU * 8 / 1000) /* [us] */
1.1  hsuenaga #define MVXPE_LPI_TW		(MVXPE_MRU * 8 / 1000) /* [us] */
1.1  hsuenaga #define MVXPE_LPI_LI		(MVXPE_MRU * 8 / 1000) /* [us] */
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * DMA Descriptor
1.1  hsuenaga  *
1.1  hsuenaga  * the ethernet device has 8 rx/tx DMA queues. each of queue has its own
1.6   msaitoh  * descriptor list. descriptors are simply index by counter inside the device.
1.1  hsuenaga  */
1.2  hsuenaga #define MVXPE_TX_RING_CNT	IFQ_MAXLEN
1.1  hsuenaga #define MVXPE_TX_RING_MSK	(MVXPE_TX_RING_CNT - 1)
1.1  hsuenaga #define MVXPE_TX_RING_NEXT(x)	(((x) + 1) & MVXPE_TX_RING_MSK)
1.2  hsuenaga #define MVXPE_RX_RING_CNT	IFQ_MAXLEN
1.1  hsuenaga #define MVXPE_RX_RING_MSK	(MVXPE_RX_RING_CNT - 1)
1.1  hsuenaga #define MVXPE_RX_RING_NEXT(x)	(((x) + 1) & MVXPE_RX_RING_MSK)
1.1  hsuenaga #define MVXPE_TX_SEGLIMIT	32
1.1  hsuenaga
1.1  hsuenaga struct mvxpe_rx_ring {
1.1  hsuenaga 	/* Real descriptors array. shared by RxDMA */
1.1  hsuenaga 	struct mvxpe_rx_desc		*rx_descriptors;
1.1  hsuenaga 	bus_dmamap_t			rx_descriptors_map;
1.1  hsuenaga
1.7    andvar 	/* Management entries for each of descriptors */
1.1  hsuenaga 	struct mvxpe_rx_handle {
1.1  hsuenaga 		struct mvxpe_rx_desc	*rxdesc_va;
1.1  hsuenaga 		off_t			rxdesc_off; /* from rx_descriptors[0] */
1.2  hsuenaga 		struct mvxpbm_chunk	*chunk;
1.1  hsuenaga 	} rx_handle[MVXPE_RX_RING_CNT];
1.1  hsuenaga
1.1  hsuenaga 	/* locks */
1.1  hsuenaga 	kmutex_t			rx_ring_mtx;
1.1  hsuenaga
1.1  hsuenaga 	/* Index */
1.1  hsuenaga 	int				rx_dma;
1.1  hsuenaga 	int				rx_cpu;
1.1  hsuenaga
1.1  hsuenaga 	/* Limit */
1.1  hsuenaga 	int				rx_queue_len;
1.1  hsuenaga 	int				rx_queue_th_received;
1.1  hsuenaga 	int				rx_queue_th_free;
1.1  hsuenaga 	int				rx_queue_th_time; /* [Tclk] */
1.1  hsuenaga };
1.1  hsuenaga
1.1  hsuenaga struct mvxpe_tx_ring {
1.1  hsuenaga 	/* Real descriptors array. shared by TxDMA */
1.1  hsuenaga 	struct mvxpe_tx_desc		*tx_descriptors;
1.1  hsuenaga 	bus_dmamap_t			tx_descriptors_map;
1.1  hsuenaga
1.7    andvar 	/* Management entries for each of descriptors */
1.1  hsuenaga 	struct mvxpe_tx_handle {
1.1  hsuenaga 		struct mvxpe_tx_desc	*txdesc_va;
1.1  hsuenaga 		off_t			txdesc_off; /* from tx_descriptors[0] */
1.1  hsuenaga 		struct mbuf		*txdesc_mbuf;
1.1  hsuenaga 		bus_dmamap_t		txdesc_mbuf_map;
1.1  hsuenaga 	} tx_handle[MVXPE_TX_RING_CNT];
1.1  hsuenaga
1.1  hsuenaga 	/* locks */
1.1  hsuenaga 	kmutex_t			tx_ring_mtx;
1.1  hsuenaga
1.1  hsuenaga 	/* Index */
1.2  hsuenaga 	int				tx_used;
1.1  hsuenaga 	int				tx_dma;
1.1  hsuenaga 	int				tx_cpu;
1.1  hsuenaga
1.1  hsuenaga 	/* Limit */
1.1  hsuenaga 	int				tx_queue_len;
1.1  hsuenaga 	int				tx_queue_th_free;
1.1  hsuenaga };
1.1  hsuenaga
1.4  christos static __inline int
1.1  hsuenaga tx_counter_adv(int ctr, int n)
1.1  hsuenaga {
1.1  hsuenaga 	/* XXX: lock or atomic */
1.1  hsuenaga 	ctr += n;
1.1  hsuenaga 	while (ctr >= MVXPE_TX_RING_CNT)
1.1  hsuenaga 		ctr -= MVXPE_TX_RING_CNT;
1.1  hsuenaga
1.1  hsuenaga 	return ctr;
1.1  hsuenaga }
1.1  hsuenaga
1.4  christos static __inline int
1.1  hsuenaga rx_counter_adv(int ctr, int n)
1.1  hsuenaga {
1.1  hsuenaga 	/* XXX: lock or atomic */
1.1  hsuenaga 	ctr += n;
1.1  hsuenaga 	while (ctr >= MVXPE_TX_RING_CNT)
1.1  hsuenaga 		ctr -= MVXPE_TX_RING_CNT;
1.1  hsuenaga
1.1  hsuenaga 	return ctr;
1.1  hsuenaga }
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Timeout control
1.1  hsuenaga  */
1.1  hsuenaga #define MVXPE_PHY_TIMEOUT	10000	/* msec */
1.1  hsuenaga #define RX_DISABLE_TIMEOUT	0x1000000 /* times */
1.1  hsuenaga #define TX_DISABLE_TIMEOUT	0x1000000 /* times */
1.1  hsuenaga #define TX_FIFO_EMPTY_TIMEOUT	0x1000000 /* times */
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Event counter
1.1  hsuenaga  */
1.1  hsuenaga #ifdef MVXPE_EVENT_COUNTERS
1.1  hsuenaga #define	MVXPE_EVCNT_INCR(ev)		(ev)->ev_count++
1.1  hsuenaga #define	MVXPE_EVCNT_ADD(ev, val)	(ev)->ev_count += (val)
1.1  hsuenaga #else
1.1  hsuenaga #define	MVXPE_EVCNT_INCR(ev)		/* nothing */
1.1  hsuenaga #define	MVXPE_EVCNT_ADD(ev, val)	/* nothing */
1.1  hsuenaga #endif
1.1  hsuenaga struct mvxpe_evcnt {
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Master Interrupt Handler
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_i_rxtxth;
1.1  hsuenaga 	struct evcnt ev_i_rxtx;
1.1  hsuenaga 	struct evcnt ev_i_misc;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * RXTXTH Interrupt
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_rxtxth_txerr;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * MISC Interrupt
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_misc_phystatuschng;
1.1  hsuenaga 	struct evcnt ev_misc_linkchange;
1.1  hsuenaga 	struct evcnt ev_misc_iae;
1.1  hsuenaga 	struct evcnt ev_misc_rxoverrun;
1.1  hsuenaga 	struct evcnt ev_misc_rxcrc;
1.1  hsuenaga 	struct evcnt ev_misc_rxlargepacket;
1.1  hsuenaga 	struct evcnt ev_misc_txunderrun;
1.1  hsuenaga 	struct evcnt ev_misc_prbserr;
1.1  hsuenaga 	struct evcnt ev_misc_srse;
1.1  hsuenaga 	struct evcnt ev_misc_txreq;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * RxTx Interrupt
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_rxtx_rreq;
1.1  hsuenaga 	struct evcnt ev_rxtx_rpq;
1.1  hsuenaga 	struct evcnt ev_rxtx_tbrq;
1.1  hsuenaga 	struct evcnt ev_rxtx_rxtxth;
1.1  hsuenaga 	struct evcnt ev_rxtx_txerr;
1.1  hsuenaga 	struct evcnt ev_rxtx_misc;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Link
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_link_up;
1.1  hsuenaga 	struct evcnt ev_link_down;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Rx Descriptor
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_rxd_ce;
1.1  hsuenaga 	struct evcnt ev_rxd_or;
1.1  hsuenaga 	struct evcnt ev_rxd_mf;
1.1  hsuenaga 	struct evcnt ev_rxd_re;
1.1  hsuenaga 	struct evcnt ev_rxd_scat;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Tx Descriptor
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_txd_lc;
1.1  hsuenaga 	struct evcnt ev_txd_ur;
1.1  hsuenaga 	struct evcnt ev_txd_rl;
1.1  hsuenaga 	struct evcnt ev_txd_oth;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Status Registers
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct evcnt ev_reg_pdfc;	/* Rx Port Discard Frame Counter */
1.1  hsuenaga 	struct evcnt ev_reg_pofc;	/* Rx Port Overrun Frame Counter */
1.1  hsuenaga 	struct evcnt ev_reg_txbadfcs;	/* Tx BAD FCS Counter */
1.1  hsuenaga 	struct evcnt ev_reg_txdropped;	/* Tx Dropped Counter */
1.1  hsuenaga 	struct evcnt ev_reg_lpic;
1.1  hsuenaga
1.1  hsuenaga
1.1  hsuenaga 	/* Device Driver Errors */
1.1  hsuenaga 	struct evcnt ev_drv_wdogsoft;
1.1  hsuenaga 	struct evcnt ev_drv_txerr;
1.1  hsuenaga 	struct evcnt ev_drv_rxq[MVXPE_QUEUE_SIZE];
1.1  hsuenaga 	struct evcnt ev_drv_rxqe[MVXPE_QUEUE_SIZE];
1.1  hsuenaga 	struct evcnt ev_drv_txq[MVXPE_QUEUE_SIZE];
1.1  hsuenaga 	struct evcnt ev_drv_txqe[MVXPE_QUEUE_SIZE];
1.1  hsuenaga };
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Debug
1.1  hsuenaga  */
1.1  hsuenaga #ifdef MVXPE_DEBUG
1.1  hsuenaga #define DPRINTF(fmt, ...) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		if (mvxpe_debug >= 1) { \
1.1  hsuenaga 			printf("%s: ", __func__); \
1.1  hsuenaga 			printf((fmt), ##__VA_ARGS__); \
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #define DPRINTFN(level , fmt, ...) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		if (mvxpe_debug >= (level)) { \
1.1  hsuenaga 			printf("%s: ", __func__); \
1.1  hsuenaga 			printf((fmt), ##__VA_ARGS__); \
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #define DPRINTDEV(dev, level, fmt, ...) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		if (mvxpe_debug >= (level)) { \
1.1  hsuenaga 			device_printf((dev), \
1.1  hsuenaga 			    "%s: "fmt , __func__, ##__VA_ARGS__); \
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #define DPRINTSC(sc, level, fmt, ...) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		device_t dev = (sc)->sc_dev; \
1.1  hsuenaga 		if (mvxpe_debug >= (level)) { \
1.1  hsuenaga 			device_printf(dev, \
1.1  hsuenaga 			    "%s: " fmt, __func__, ##__VA_ARGS__); \
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #define DPRINTIFNET(ifp, level, fmt, ...) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		const char *xname = (ifp)->if_xname; \
1.1  hsuenaga 		if (mvxpe_debug >= (level)) { \
1.1  hsuenaga 			printf("%s: %s: " fmt, xname, __func__, ##__VA_ARGS__);\
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #define DPRINTIFNET(ifp, level, fmt, ...) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		const char *xname = (ifp)->if_xname; \
1.1  hsuenaga 		if (mvxpe_debug >= (level)) { \
1.1  hsuenaga 			printf("%s: %s: " fmt, xname, __func__, ##__VA_ARGS__);\
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #define DPRINTPRXS(level, q) \
1.1  hsuenaga 	do { \
1.1  hsuenaga 		uint32_t _reg = MVXPE_READ(sc, MVXPE_PRXS(q)); \
1.1  hsuenaga 		if (mvxpe_debug >= (level)) { \
1.1  hsuenaga 		   printf("PRXS(queue %d) %#x: Occupied %d, NoOccupied %d.\n", \
1.1  hsuenaga 		    q, _reg, MVXPE_PRXS_GET_ODC(_reg), \
1.1  hsuenaga 		    MVXPE_PRXS_GET_NODC(_reg)); \
1.1  hsuenaga 		} \
1.1  hsuenaga 	} while (/*CONSTCOND*/0)
1.1  hsuenaga #else
1.1  hsuenaga #define DPRINTF(fmt, ...)
1.1  hsuenaga #define DPRINTFN(level, fmt, ...)
1.1  hsuenaga #define DPRINTDEV(dev, level, fmt, ...)
1.1  hsuenaga #define DPRINTSC(sc, level, fmt, ...)
1.1  hsuenaga #define DPRINTIFNET(ifp, level, fmt, ...)
1.1  hsuenaga #define DPRINTPRXS(level, reg)
1.1  hsuenaga #endif
1.1  hsuenaga
1.1  hsuenaga #define KASSERT_SC_MTX(sc) \
1.1  hsuenaga     KASSERT(mutex_owned(&(sc)->sc_mtx))
1.1  hsuenaga #define KASSERT_BM_MTX(sc) \
1.1  hsuenaga     KASSERT(mutex_owned(&(sc)->sc_bm.bm_mtx))
1.1  hsuenaga #define KASSERT_RX_MTX(sc, q) \
1.1  hsuenaga     KASSERT(mutex_owned(&(sc)->sc_rx_ring[(q)].rx_ring_mtx))
1.1  hsuenaga #define KASSERT_TX_MTX(sc, q) \
1.1  hsuenaga     KASSERT(mutex_owned(&(sc)->sc_tx_ring[(q)].tx_ring_mtx))
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Configuration parameters
1.1  hsuenaga  */
1.1  hsuenaga struct mvxpe_conf {
1.1  hsuenaga 	int cf_lpi;		/* EEE Low Power IDLE enable */
1.1  hsuenaga 	int cf_fc;		/* Flow Control enable */
1.1  hsuenaga };
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * sysctl(9) parameters
1.1  hsuenaga  */
1.1  hsuenaga struct mvxpe_softc;
1.1  hsuenaga struct mvxpe_sysctl_queue {
1.1  hsuenaga 	struct mvxpe_softc	*sc;
1.1  hsuenaga 	int			rxtx;
1.1  hsuenaga 	int			queue;
1.1  hsuenaga };
1.1  hsuenaga #define MVXPE_SYSCTL_RX		0
1.1  hsuenaga #define MVXPE_SYSCTL_TX		1
1.1  hsuenaga
1.1  hsuenaga struct mvxpe_sysctl_mib {
1.1  hsuenaga 	struct mvxpe_softc	*sc;
1.1  hsuenaga 	int			index;
1.1  hsuenaga 	uint64_t		counter;
1.1  hsuenaga };
1.1  hsuenaga
1.1  hsuenaga /*
1.1  hsuenaga  * Ethernet Device main context
1.1  hsuenaga  */
1.1  hsuenaga struct mvxpe_softc {
1.1  hsuenaga 	device_t sc_dev;
1.1  hsuenaga 	int sc_port;
1.1  hsuenaga 	uint32_t sc_version;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * sc_mtx must be held by interface functions to/from
1.1  hsuenaga 	 * other frameworks. interrupt hander, sysctl hander,
1.1  hsuenaga 	 * ioctl hander, and so on.
1.1  hsuenaga 	 */
1.1  hsuenaga 	kmutex_t sc_mtx;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Ethernet facilities
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct ethercom sc_ethercom;
1.1  hsuenaga 	struct mii_data sc_mii;
1.1  hsuenaga 	u_int8_t sc_enaddr[ETHER_ADDR_LEN];	/* station addr */
1.5   msaitoh 	u_short sc_if_flags;
1.1  hsuenaga 	int sc_wdogsoft;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Configuration Parameters
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct mvxpe_conf sc_cf;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * I/O Spaces
1.1  hsuenaga 	 */
1.1  hsuenaga 	bus_space_tag_t sc_iot;
1.1  hsuenaga 	bus_space_handle_t sc_ioh;	/* all registers handle */
1.1  hsuenaga 	bus_space_handle_t sc_mibh;	/* mib counter handle */
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * DMA Spaces
1.1  hsuenaga 	 */
1.1  hsuenaga 	bus_dma_tag_t sc_dmat;
1.1  hsuenaga 	struct mvxpe_rx_ring		sc_rx_ring[MVXPE_QUEUE_SIZE];
1.1  hsuenaga 	struct mvxpe_tx_ring		sc_tx_ring[MVXPE_QUEUE_SIZE];
1.1  hsuenaga 	int sc_tx_pending;		/* total number of tx pkt */
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Software Buffer Manager
1.1  hsuenaga 	 */
1.2  hsuenaga 	struct mvxpbm_softc *sc_bm;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Maintance clock
1.1  hsuenaga 	 */
1.1  hsuenaga 	callout_t sc_tick_ch;		/* tick callout */
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Link State control
1.1  hsuenaga 	 */
1.1  hsuenaga 	uint32_t sc_linkstate;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Act as Rndom source
1.1  hsuenaga 	 */
1.1  hsuenaga 	krndsource_t sc_rnd_source;
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Sysctl interfaces
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct sysctllog *sc_mvxpe_clog;
1.1  hsuenaga 	struct mvxpe_sysctl_queue sc_sysctl_rx_queue[MVXPE_QUEUE_SIZE];
1.1  hsuenaga 	struct mvxpe_sysctl_queue sc_sysctl_tx_queue[MVXPE_QUEUE_SIZE];
1.1  hsuenaga
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * MIB counter
1.1  hsuenaga 	 */
1.1  hsuenaga 	size_t sc_sysctl_mib_size;
1.1  hsuenaga 	struct mvxpe_sysctl_mib *sc_sysctl_mib;
1.1  hsuenaga
1.1  hsuenaga #ifdef MVXPE_EVENT_COUNTERS
1.1  hsuenaga 	/*
1.1  hsuenaga 	 * Event counter
1.1  hsuenaga 	 */
1.1  hsuenaga 	struct mvxpe_evcnt sc_ev;
1.1  hsuenaga #endif
1.1  hsuenaga };
1.1  hsuenaga #define MVXPE_RX_RING_MEM_VA(sc, q) \
1.1  hsuenaga     ((sc)->sc_rx_ring[(q)].rx_descriptors)
1.1  hsuenaga #define MVXPE_RX_RING_MEM_PA(sc, q) \
1.1  hsuenaga     ((sc)->sc_rx_ring[(q)].rx_descriptors_map->dm_segs[0].ds_addr)
1.1  hsuenaga #define MVXPE_RX_RING_MEM_MAP(sc, q) \
1.1  hsuenaga     ((sc)->sc_rx_ring[(q)].rx_descriptors_map)
1.1  hsuenaga #define MVXPE_RX_RING(sc, q) \
1.1  hsuenaga     (&(sc)->sc_rx_ring[(q)])
1.1  hsuenaga #define MVXPE_RX_HANDLE(sc, q, i) \
1.1  hsuenaga     (&(sc)->sc_rx_ring[(q)].rx_handle[(i)])
1.1  hsuenaga #define MVXPE_RX_DESC(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_rx_ring[(q)].rx_handle[(i)].rxdesc_va)
1.1  hsuenaga #define MVXPE_RX_DESC_OFF(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_rx_ring[(q)].rx_handle[(i)].rxdesc_off)
1.1  hsuenaga #define MVXPE_RX_PKTBUF(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_rx_ring[(q)].rx_handle[(i)].chunk)
1.1  hsuenaga
1.1  hsuenaga #define MVXPE_TX_RING_MEM_VA(sc, q) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_descriptors)
1.1  hsuenaga #define MVXPE_TX_RING_MEM_PA(sc, q) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_descriptors_map->dm_segs[0].ds_addr)
1.1  hsuenaga #define MVXPE_TX_RING_MEM_MAP(sc, q) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_descriptors_map)
1.1  hsuenaga #define MVXPE_TX_RING(sc, q) \
1.1  hsuenaga     (&(sc)->sc_tx_ring[(q)])
1.1  hsuenaga #define MVXPE_TX_HANDLE(sc, q, i) \
1.1  hsuenaga     (&(sc)->sc_tx_ring[(q)].tx_handle[(i)])
1.1  hsuenaga #define MVXPE_TX_DESC(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_handle[(i)].txdesc_va)
1.1  hsuenaga #define MVXPE_TX_DESC_OFF(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_handle[(i)].txdesc_off)
1.1  hsuenaga #define MVXPE_TX_MBUF(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_handle[(i)].txdesc_mbuf)
1.1  hsuenaga #define MVXPE_TX_MAP(sc, q, i) \
1.1  hsuenaga     ((sc)->sc_tx_ring[(q)].tx_handle[(i)].txdesc_mbuf_map)
1.1  hsuenaga
1.1  hsuenaga #endif /* _IF_MVXPEVAR_H_ */