cavium/dev/octeon_powvar.h

1.2    matt /*	$NetBSD: octeon_powvar.h,v 1.2 2016/07/11 16:15:35 matt Exp $	*/
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * Copyright (c) 2007 Internet Initiative Japan, Inc.
1.1  hikaru  * All rights reserved.
1.1  hikaru  *
1.1  hikaru  * Redistribution and use in source and binary forms, with or without
1.1  hikaru  * modification, are permitted provided that the following conditions
1.1  hikaru  * are met:
1.1  hikaru  * 1. Redistributions of source code must retain the above copyright
1.1  hikaru  *    notice, this list of conditions and the following disclaimer.
1.1  hikaru  * 2. Redistributions in binary form must reproduce the above copyright
1.1  hikaru  *    notice, this list of conditions and the following disclaimer in the
1.1  hikaru  *    documentation and/or other materials provided with the distribution.
1.1  hikaru  *
1.1  hikaru  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  hikaru  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  hikaru  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  hikaru  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  hikaru  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  hikaru  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  hikaru  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  hikaru  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  hikaru  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  hikaru  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  hikaru  * SUCH DAMAGE.
1.1  hikaru  */
1.1  hikaru
1.1  hikaru #ifndef _OCTEON_POWVAR_H_
1.1  hikaru #define _OCTEON_POWVAR_H_
1.1  hikaru
1.1  hikaru #include <sys/cpu.h>
1.1  hikaru
1.1  hikaru #define POW_TAG_TYPE_ORDERED	0
1.1  hikaru #define POW_TAG_TYPE_ATOMIC	1
1.1  hikaru #define POW_TAG_TYPE_NULL	2
1.1  hikaru #define POW_TAG_TYPE_NULL_NULL	3
1.1  hikaru
1.1  hikaru #define POW_TAG_OP_SWTAG		0
1.1  hikaru #define POW_TAG_OP_SWTAG_FULL		1
1.1  hikaru #define POW_TAG_OP_SWTAG_DESCHED	2
1.1  hikaru #define POW_TAG_OP_DESCHED		3
1.1  hikaru #define POW_TAG_OP_ADDWQ		4
1.1  hikaru #define POW_TAG_OP_UPD_WQP_GRP		5
1.1  hikaru #define POW_TAG_OP_CLR_NSCHED		7
1.1  hikaru #define POW_TAG_OP_NOP			15
1.1  hikaru
1.1  hikaru #define POW_WAIT	1
1.1  hikaru #define POW_NO_WAIT	0
1.1  hikaru
1.1  hikaru /* XXX */
1.1  hikaru struct octeon_pow_softc {
1.1  hikaru 	device_t		sc_dev;
1.1  hikaru 	bus_space_tag_t		sc_regt;
1.1  hikaru 	bus_space_handle_t	sc_regh;
1.1  hikaru 	int			sc_port;
1.1  hikaru 	int			sc_int_pc_base;
1.1  hikaru #ifdef OCTEON_ETH_DEBUG
1.1  hikaru 	struct evcnt		sc_ev_powecciopcsrpend;
1.1  hikaru 	struct evcnt		sc_ev_powecciopdbgpend;
1.1  hikaru 	struct evcnt		sc_ev_powecciopaddwork;
1.1  hikaru 	struct evcnt		sc_ev_powecciopillop;
1.1  hikaru 	struct evcnt		sc_ev_poweccioppend24;
1.1  hikaru 	struct evcnt		sc_ev_poweccioppend23;
1.1  hikaru 	struct evcnt		sc_ev_poweccioppend22;
1.1  hikaru 	struct evcnt		sc_ev_poweccioppend21;
1.1  hikaru 	struct evcnt		sc_ev_poweccioptagnull;
1.1  hikaru 	struct evcnt		sc_ev_poweccioptagnullnull;
1.1  hikaru 	struct evcnt		sc_ev_powecciopordatom;
1.1  hikaru 	struct evcnt		sc_ev_powecciopnull;
1.1  hikaru 	struct evcnt		sc_ev_powecciopnullnull;
1.1  hikaru 	struct evcnt		sc_ev_poweccrpe;
1.1  hikaru 	struct evcnt		sc_ev_poweccsyn;
1.1  hikaru 	struct evcnt		sc_ev_poweccdbe;
1.1  hikaru 	struct evcnt		sc_ev_poweccsbe;
1.1  hikaru #endif
1.1  hikaru };
1.1  hikaru
1.1  hikaru /* XXX */
1.1  hikaru struct octeon_pow_attach_args {
1.1  hikaru 	int			aa_port;
1.1  hikaru 	bus_space_tag_t		aa_regt;
1.1  hikaru };
1.1  hikaru
1.1  hikaru void			octeon_pow_config(struct octeon_pow_softc *, int);
1.1  hikaru void			*octeon_pow_intr_establish(int, int,
1.1  hikaru 			    void (*)(void *, uint64_t *),
1.1  hikaru 			    void (*)(int *, int *, uint64_t, void *),
1.1  hikaru 			    void *);
1.1  hikaru void			octeon_pow_error_int_enable(void *, int);
1.1  hikaru uint64_t		octeon_pow_error_int_summary(void *);
1.1  hikaru int			octeon_pow_ring_reduce(void *);
1.1  hikaru int			octeon_pow_ring_grow(void *);
1.1  hikaru int			octeon_pow_ring_size(void);
1.1  hikaru int			octeon_pow_ring_intr(void);
1.1  hikaru
1.1  hikaru #define	_POW_RD8(sc, off) \
1.1  hikaru 	bus_space_read_8((sc)->sc_regt, (sc)->sc_regh, (off))
1.1  hikaru #define	_POW_WR8(sc, off, v) \
1.1  hikaru 	bus_space_write_8((sc)->sc_regt, (sc)->sc_regh, (off), (v))
1.1  hikaru #define	_POW_GROUP_RD8(sc, pi, off) \
1.1  hikaru 	bus_space_read_8((sc)->sc_regt, (sc)->sc_regh, \
1.1  hikaru 	    (off) + sizeof(uint64_t) * (pi)->pi_group)
1.1  hikaru #define	_POW_GROUP_WR8(sc, pi, off, v) \
1.1  hikaru 	bus_space_write_8((sc)->sc_regt, (sc)->sc_regh, \
1.1  hikaru 	    (off) + sizeof(uint64_t) * (pi)->pi_group, (v))
1.1  hikaru
1.1  hikaru extern struct octeon_pow_softc	octeon_pow_softc;
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru
1.1  hikaru /* Load Operations */
1.1  hikaru
1.1  hikaru /* GET_WORK Loads */
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_pow_ops_get_work_load(
1.1  hikaru 	int wait)			/* 0-1 */
1.1  hikaru {
1.1  hikaru 	uint64_t ptr =
1.1  hikaru 	    POW_OPERATION_BASE_IO_BIT |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_SUB_DID, 0x00) |
1.1  hikaru 	    __BITS64_SET(POW_GET_WORK_LOAD_WAIT, wait);
1.1  hikaru
1.1  hikaru 	return octeon_xkphys_read_8(ptr);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* POW Status Loads */
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * a) get_cur == 0, get_wqp == 0 (pend_tag)
1.1  hikaru  * b) get_cur == 0, get_wqp == 1 (pend_wqp)
1.1  hikaru  * c) get_cur == 1, get_wqp == 0, get_rev == 0 (cur_tag_next)
1.1  hikaru  * d) get_cur == 1, get_wqp == 0, get_rev == 1 (cur_tag_prev)
1.1  hikaru  * e) get_cur == 1, get_wqp == 1, get_rev == 0 (cur_wqp_next)
1.1  hikaru  * f) get_cur == 1, get_wqp == 1, get_rev == 1 (cur_wqp_prev)
1.1  hikaru  */
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_pow_ops_pow_status(
1.1  hikaru 	int coreid,			/* 0-15 */
1.1  hikaru 	int get_rev,			/* 0-1 */
1.1  hikaru 	int get_cur,			/* 0-1 */
1.1  hikaru 	int get_wqp)			/* 0-1 */
1.1  hikaru {
1.1  hikaru 	uint64_t ptr =
1.1  hikaru 	    POW_OPERATION_BASE_IO_BIT |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_SUB_DID, 0x01) |
1.1  hikaru 	    __BITS64_SET(POW_STATUS_LOAD_COREID, coreid) |
1.1  hikaru 	    __BITS64_SET(POW_STATUS_LOAD_GET_REV, get_rev) |
1.1  hikaru 	    __BITS64_SET(POW_STATUS_LOAD_GET_CUR, get_cur) |
1.1  hikaru 	    __BITS64_SET(POW_STATUS_LOAD_GET_WQP, get_wqp);
1.1  hikaru
1.1  hikaru 	return octeon_xkphys_read_8(ptr);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* POW Memory Loads */
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * a) get_des == 0, get_wqp == 0 (tag)
1.1  hikaru  * b) get_des == 0, get_wqp == 1 (wqe)
1.1  hikaru  * c) get_des == 1 (desched)
1.1  hikaru  */
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_pow_ops_pow_memory(
1.1  hikaru 	int index,			/* 0-2047 */
1.1  hikaru 	int get_des,			/* 0-1 */
1.1  hikaru 	int get_wqp)			/* 0-1 */
1.1  hikaru {
1.1  hikaru 	uint64_t ptr =
1.1  hikaru 	    POW_OPERATION_BASE_IO_BIT |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_SUB_DID, 0x02) |
1.1  hikaru 	    __BITS64_SET(POW_MEMORY_LOAD_INDEX, index) |
1.1  hikaru 	    __BITS64_SET(POW_MEMORY_LOAD_GET_DES, get_des) |
1.1  hikaru 	    __BITS64_SET(POW_MEMORY_LOAD_GET_WQP, get_wqp);
1.1  hikaru
1.1  hikaru 	return octeon_xkphys_read_8(ptr);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* POW Index/Pointer Loads */
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * a) get_rmt == 0, get_des_get_tail == 0
1.1  hikaru  * b) get_rmt == 0, get_des_get_tail == 1
1.1  hikaru  * c) get_rmt == 1, get_des_get_tail == 0
1.1  hikaru  * d) get_rmt == 1, get_des_get_tail == 1
1.1  hikaru  */
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_pow_ops_pow_idxptr(
1.1  hikaru 	int qosgrp,			/* 0-7 */
1.1  hikaru 	int get_des_get_tail,		/* 0-1 */
1.1  hikaru 	int get_rmt)			/* 0-1 */
1.1  hikaru {
1.1  hikaru 	uint64_t ptr =
1.1  hikaru 	    POW_OPERATION_BASE_IO_BIT |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_SUB_DID, 0x03) |
1.1  hikaru 	    __BITS64_SET(POW_IDXPTR_LOAD_QOSGRP, qosgrp) |
1.1  hikaru 	    __BITS64_SET(POW_IDXPTR_LOAD_GET_DES_GET_TAIL, get_des_get_tail) |
1.1  hikaru 	    __BITS64_SET(POW_IDXPTR_LOAD_GET_RMT, get_rmt);
1.1  hikaru
1.1  hikaru 	return octeon_xkphys_read_8(ptr);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* NULL_RD Loads */
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_pow_ops_null_rd_load(void)
1.1  hikaru {
1.1  hikaru 	uint64_t ptr =
1.1  hikaru 	    POW_OPERATION_BASE_IO_BIT |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_SUB_DID, 0x04);
1.1  hikaru
1.1  hikaru 	return octeon_xkphys_read_8(ptr);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* IOBDMA Operations */
1.1  hikaru
1.1  hikaru /* ``subdid'' values are inverted between ``get_work_addr'' and ``null_read_id'' */
1.1  hikaru
1.1  hikaru /* The ``scraddr'' part is index in 8 byte words, not address. */
1.1  hikaru
1.1  hikaru /* GET_WORK IOBDMAs */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_get_work_iobdma(
1.1  hikaru 	int scraddr,			/* 0-2047 */
1.1  hikaru 	int wait)			/* 0-1 */
1.1  hikaru {
1.1  hikaru  	/* ``scraddr'' part is index in 64-bit words, not address */
1.1  hikaru 	const int scrindex = scraddr / sizeof(uint64_t);
1.1  hikaru
1.1  hikaru         uint64_t args =
1.1  hikaru              __BITS64_SET(POW_IOBDMA_GET_WORK_WAIT, wait);
1.1  hikaru         uint64_t value =
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_SCRADDR, scrindex) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_LEN, 0x01) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_SUB_DID, 0x00) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_39_0, args);
1.1  hikaru
1.1  hikaru         octeon_iobdma_write_8(value);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* NULL_RD IOBDMAs */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_null_rd_iobdma(
1.1  hikaru 	int scraddr)			/* 0-2047 */
1.1  hikaru {
1.1  hikaru  	/* ``scraddr'' part is index in 64-bit words, not address */
1.1  hikaru 	const int scrindex = scraddr / sizeof(uint64_t);
1.1  hikaru
1.1  hikaru         uint64_t value =
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_SCRADDR, scrindex) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_LEN, 0x01) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_SUB_DID, 0x04) |
1.1  hikaru             __BITS64_SET(POW_IOBDMA_BASE_39_0, 0);
1.1  hikaru
1.1  hikaru         octeon_iobdma_write_8(value);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* Store Operations */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_store(
1.1  hikaru 	int subdid,			/* 0, 1, 3 */
1.1  hikaru 	uint64_t addr,			/* 0-0x0000.000f.ffff.ffff */
1.1  hikaru 	int no_sched,			/* 0, 1 */
1.1  hikaru 	int index,			/* 0-8191 */
1.1  hikaru 	int op,				/* 0-15 */
1.1  hikaru 	int qos,			/* 0-7 */
1.1  hikaru 	int grp,			/* 0-7 */
1.1  hikaru 	int type,			/* 0-7 */
1.1  hikaru 	uint32_t tag)			/* 0-0xffff.ffff */
1.1  hikaru {
1.1  hikaru 	/* Physical Address to Store to POW */
1.1  hikaru 	uint64_t ptr =
1.1  hikaru 	    POW_OPERATION_BASE_IO_BIT |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_MAJOR_DID, 0x0c) |
1.1  hikaru 	    __BITS64_SET(POW_OPERATION_BASE_SUB_DID, subdid) |
1.1  hikaru 	    __BITS64_SET(POW_PHY_ADDR_STORE_ADDR, addr);
1.1  hikaru
1.1  hikaru 	/* Store Data on Store to POW */
1.1  hikaru 	uint64_t args =
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_NO_SCHED, no_sched) |
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_INDEX, index) |
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_OP, op) |
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_QOS, qos) |
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_GRP, grp) |
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_TYPE, type) |
1.1  hikaru 	    __BITS64_SET(POW_STORE_DATA_TAG, tag);
1.1  hikaru
1.1  hikaru 	octeon_xkphys_write_8(ptr, args);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* SWTAG */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_swtag(int type, uint32_t tag)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		1,			/* subdid == 1 */
1.1  hikaru 		0, 			/* addr (not used for SWTAG) */
1.1  hikaru 		0,			/* no_sched (not used for SWTAG) */
1.1  hikaru 		0,			/* index (not used for SWTAG) */
1.1  hikaru 		POW_TAG_OP_SWTAG,	/* op == SWTAG */
1.1  hikaru 		0,			/* qos (not used for SWTAG) */
1.1  hikaru 		0,			/* grp (not used for SWTAG) */
1.1  hikaru 		type,
1.1  hikaru 		tag);
1.1  hikaru 	/* switch to NULL completes immediately */
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* SWTAG_FULL */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_swtag_full(paddr_t addr, int grp, int type, uint32_t tag)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		0,			/* subdid == 0 */
1.1  hikaru 		addr,
1.1  hikaru 		0,			/* no_sched (not used for SWTAG_FULL) */
1.1  hikaru 		0,			/* index (not used for SWTAG_FULL) */
1.1  hikaru 		POW_TAG_OP_SWTAG_FULL,	/* op == SWTAG_FULL */
1.1  hikaru 		0,			/* qos (not used for SWTAG_FULL) */
1.1  hikaru 		grp,
1.1  hikaru 		type,
1.1  hikaru 		tag);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* SWTAG_DESCHED */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_swtag_desched(int no_sched, int grp, int type, uint32_t tag)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		3,			/* subdid == 3 */
1.1  hikaru 		0,			/* addr (not used for SWTAG_DESCHED) */
1.1  hikaru 		no_sched,
1.1  hikaru 		0,			/* index (not used for SWTAG_DESCHED) */
1.1  hikaru 		POW_TAG_OP_SWTAG_DESCHED, /* op == SWTAG_DESCHED */
1.1  hikaru 		0,			/* qos (not used for SWTAG_DESCHED) */
1.1  hikaru 		grp,
1.1  hikaru 		type,
1.1  hikaru 		tag);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* DESCHED */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_desched(int no_sched)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		3,			/* subdid == 3 */
1.1  hikaru 		0,			/* addr (not used for DESCHED) */
1.1  hikaru 		no_sched,
1.1  hikaru 		0,			/* index (not used for DESCHED) */
1.1  hikaru 		POW_TAG_OP_DESCHED,	/* op == DESCHED */
1.1  hikaru 		0,			/* qos (not used for DESCHED) */
1.1  hikaru 		0,			/* grp (not used for DESCHED) */
1.1  hikaru 		0,			/* type (not used for DESCHED) */
1.1  hikaru 		0);			/* tag (not used for DESCHED) */
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* ADDWQ */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_addwq(paddr_t addr, int qos, int grp, int type, uint32_t tag)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		1,			/* subdid == 1 */
1.1  hikaru 		addr,
1.1  hikaru 		0,			/* no_sched (not used for ADDWQ) */
1.1  hikaru 		0,			/* index (not used for ADDWQ) */
1.1  hikaru 		POW_TAG_OP_ADDWQ,	/* op == ADDWQ */
1.1  hikaru 		qos,
1.1  hikaru 		grp,
1.1  hikaru 		type,
1.1  hikaru 		tag);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* UPD_WQP_GRP */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_upd_wqp_grp(paddr_t addr, int grp)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		1,			/* subdid == 1 */
1.1  hikaru 		addr,
1.1  hikaru 		0,			/* no_sched (not used for UPD_WQP_GRP) */
1.1  hikaru 		0,			/* index (not used for UPD_WQP_GRP) */
1.1  hikaru 		POW_TAG_OP_UPD_WQP_GRP,	/* op == UPD_WQP_GRP */
1.1  hikaru 		0,			/* qos (not used for UPD_WQP_GRP) */
1.1  hikaru 		grp,
1.1  hikaru 		0,			/* type (not used for UPD_WQP_GRP) */
1.1  hikaru 		0);			/* tag (not used for UPD_WQP_GRP) */
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* CLR_NSCHED */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_clr_nsched(paddr_t addr, int index)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		1,			/* subdid == 1 */
1.1  hikaru 		addr,
1.1  hikaru 		0,			/* no_sched (not used for CLR_NSCHED) */
1.1  hikaru 		index,
1.1  hikaru 		POW_TAG_OP_CLR_NSCHED,	/* op == CLR_NSCHED */
1.1  hikaru 		0,			/* qos (not used for CLR_NSCHED) */
1.1  hikaru 		0,			/* grp (not used for CLR_NSCHED) */
1.1  hikaru 		0,			/* type (not used for CLR_NSCHED) */
1.1  hikaru 		0);			/* tag (not used for CLR_NSCHED) */
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* NOP */
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_ops_nop(void)
1.1  hikaru {
1.1  hikaru 	octeon_pow_store(
1.1  hikaru 		1,			/* subdid == 1 */
1.1  hikaru 		0,			/* addr (not used for NOP) */
1.1  hikaru 		0,			/* no_sched (not used for NOP) */
1.1  hikaru 		0,			/* index (not used for NOP) */
1.1  hikaru 		POW_TAG_OP_NOP,		/* op == NOP */
1.1  hikaru 		0,			/* qos (not used for NOP) */
1.1  hikaru 		0,			/* grp (not used for NOP) */
1.1  hikaru 		0,			/* type (not used for NOP) */
1.1  hikaru 		0);			/* tag (not used for NOP) */
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* -------------------------------------------------------------------------- */
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * global functions
1.1  hikaru  */
1.1  hikaru static inline void
1.1  hikaru octeon_pow_work_request_async(uint64_t scraddr, uint64_t wait)
1.1  hikaru {
1.1  hikaru         octeon_pow_ops_get_work_iobdma(scraddr, wait);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline uint64_t *
1.1  hikaru octeon_pow_work_response_async(uint64_t scraddr)
1.1  hikaru {
1.1  hikaru 	uint64_t result;
1.1  hikaru
1.1  hikaru 	OCTEON_SYNCIOBDMA;
1.1  hikaru 	result = octeon_cvmseg_read_8(scraddr);
1.1  hikaru
1.2    matt 	paddr_t addr = result & POW_IOBDMA_GET_WORK_RESULT_ADDR;
1.2    matt
1.2    matt 	if (result & POW_IOBDMA_GET_WORK_RESULT_NO_WORK)
1.2    matt 	    return NULL;
1.2    matt #ifdef __mips_n32
1.2    matt 	KASSERT(addr < MIPS_PHYS_MASK);
1.2    matt 	//if (addr < MIPS_PHYS_MASK)
1.2    matt 		return (uint64_t *)MIPS_PHYS_TO_KSEG0(addr);
1.2    matt #else
1.2    matt 	return (uint64_t *)MIPS_PHYS_TO_XKPHYS_CACHED(addr);
1.2    matt #endif
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_config_int_pc(struct octeon_pow_softc *sc, int unit)
1.1  hikaru {
1.1  hikaru 	uint64_t wq_int_pc;
1.1  hikaru 	uint64_t pc_thr;
1.1  hikaru 	static uint64_t cpu_clock_hz;
1.1  hikaru
1.1  hikaru 	if (cpu_clock_hz == 0)
1.1  hikaru 		cpu_clock_hz  = curcpu()->ci_cpu_freq;
1.1  hikaru
1.1  hikaru 	/* from SDK */
1.1  hikaru 	pc_thr = (cpu_clock_hz) / (unit * 16 * 256);
1.1  hikaru
1.1  hikaru 	wq_int_pc = pc_thr << POW_WQ_INT_PC_PC_THR_SHIFT;
1.1  hikaru 	_POW_WR8(sc, POW_WQ_INT_PC_OFFSET, wq_int_pc);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_pow_config_int_pc_rate(struct octeon_pow_softc *sc, int rate)
1.1  hikaru {
1.1  hikaru 	octeon_pow_config_int_pc(sc, sc->sc_int_pc_base / rate);
1.1  hikaru }
1.1  hikaru
1.1  hikaru /* wait until ready */
1.1  hikaru static inline void
1.1  hikaru octeon_pow_tag_sw_wait(void)
1.1  hikaru {
1.1  hikaru 	__asm __volatile (
1.1  hikaru 		"	.set	push		\n"
1.1  hikaru 		"	.set	noreorder	\n"
1.1  hikaru 		"	.set	arch=octeon	\n"
1.1  hikaru 		"1:	rdhwr	$2, $30		\n"
1.1  hikaru 		"	beqz	$2, 1b		\n"
1.1  hikaru 		"	 nop			\n"
1.1  hikaru 		"	.set	pop		\n"
1.1  hikaru 	);
1.1  hikaru }
1.1  hikaru
1.1  hikaru #endif /* _OCTEON_POWVAR_H_ */