dev/ieee1394/sbp.c

1.5       wiz /*	$NetBSD: sbp.c,v 1.5 2006/02/25 02:28:58 wiz Exp $	*/
1.1  kiyohara /*-
1.1  kiyohara  * Copyright (c) 2003 Hidetoshi Shimokawa
1.1  kiyohara  * Copyright (c) 1998-2002 Katsushi Kobayashi and Hidetoshi Shimokawa
1.1  kiyohara  * All rights reserved.
1.1  kiyohara  *
1.1  kiyohara  * Redistribution and use in source and binary forms, with or without
1.1  kiyohara  * modification, are permitted provided that the following conditions
1.1  kiyohara  * are met:
1.1  kiyohara  * 1. Redistributions of source code must retain the above copyright
1.1  kiyohara  *    notice, this list of conditions and the following disclaimer.
1.1  kiyohara  * 2. Redistributions in binary form must reproduce the above copyright
1.1  kiyohara  *    notice, this list of conditions and the following disclaimer in the
1.1  kiyohara  *    documentation and/or other materials provided with the distribution.
1.1  kiyohara  * 3. All advertising materials mentioning features or use of this software
1.1  kiyohara  *    must display the acknowledgement as bellow:
1.1  kiyohara  *
1.1  kiyohara  *    This product includes software developed by K. Kobayashi and H. Shimokawa
1.1  kiyohara  *
1.1  kiyohara  * 4. The name of the author may not be used to endorse or promote products
1.1  kiyohara  *    derived from this software without specific prior written permission.
1.1  kiyohara  *
1.1  kiyohara  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  kiyohara  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
1.1  kiyohara  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
1.1  kiyohara  * DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
1.1  kiyohara  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
1.1  kiyohara  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
1.1  kiyohara  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  kiyohara  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
1.1  kiyohara  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
1.1  kiyohara  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  kiyohara  * POSSIBILITY OF SUCH DAMAGE.
1.1  kiyohara  *
1.1  kiyohara  * $FreeBSD: /repoman/r/ncvs/src/sys/dev/firewire/sbp.c,v 1.81 2005/01/06 01:42:41 imp Exp $
1.1  kiyohara  *
1.1  kiyohara  */
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara #include <sys/param.h>
1.1  kiyohara #include <sys/systm.h>
1.1  kiyohara #include <sys/conf.h>
1.1  kiyohara #include <sys/module.h>
1.1  kiyohara #include <sys/bus.h>
1.1  kiyohara #include <sys/kernel.h>
1.1  kiyohara #include <sys/sysctl.h>
1.1  kiyohara #include <machine/bus.h>
1.1  kiyohara #include <sys/malloc.h>
1.1  kiyohara #if defined(__FreeBSD__) && __FreeBSD_version >= 501102
1.1  kiyohara #include <sys/lock.h>
1.1  kiyohara #include <sys/mutex.h>
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #if defined(__DragonFly__) || __FreeBSD_version < 500106
1.1  kiyohara #include <sys/devicestat.h>	/* for struct devstat */
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #ifdef __DragonFly__
1.1  kiyohara #include <bus/cam/cam.h>
1.1  kiyohara #include <bus/cam/cam_ccb.h>
1.1  kiyohara #include <bus/cam/cam_sim.h>
1.1  kiyohara #include <bus/cam/cam_xpt_sim.h>
1.1  kiyohara #include <bus/cam/cam_debug.h>
1.1  kiyohara #include <bus/cam/cam_periph.h>
1.1  kiyohara #include <bus/cam/scsi/scsi_all.h>
1.1  kiyohara
1.1  kiyohara #include <bus/firewire/fw_port.h>
1.1  kiyohara #include <bus/firewire/firewire.h>
1.1  kiyohara #include <bus/firewire/firewirereg.h>
1.1  kiyohara #include <bus/firewire/fwdma.h>
1.1  kiyohara #include <bus/firewire/iec13213.h>
1.1  kiyohara #include "sbp.h"
1.1  kiyohara #else
1.1  kiyohara #include <cam/cam.h>
1.1  kiyohara #include <cam/cam_ccb.h>
1.1  kiyohara #include <cam/cam_sim.h>
1.1  kiyohara #include <cam/cam_xpt_sim.h>
1.1  kiyohara #include <cam/cam_debug.h>
1.1  kiyohara #include <cam/cam_periph.h>
1.1  kiyohara #include <cam/scsi/scsi_all.h>
1.1  kiyohara
1.1  kiyohara #include <dev/firewire/fw_port.h>
1.1  kiyohara #include <dev/firewire/firewire.h>
1.1  kiyohara #include <dev/firewire/firewirereg.h>
1.1  kiyohara #include <dev/firewire/fwdma.h>
1.1  kiyohara #include <dev/firewire/iec13213.h>
1.1  kiyohara #include <dev/firewire/sbp.h>
1.1  kiyohara #endif
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara #include <sys/param.h>
1.1  kiyohara #include <sys/device.h>
1.1  kiyohara #include <sys/errno.h>
1.1  kiyohara #include <sys/buf.h>
1.1  kiyohara #include <sys/kernel.h>
1.1  kiyohara #include <sys/kthread.h>
1.1  kiyohara #include <sys/malloc.h>
1.1  kiyohara #include <sys/proc.h>
1.1  kiyohara #include <sys/sysctl.h>
1.1  kiyohara
1.1  kiyohara #include <machine/bus.h>
1.1  kiyohara
1.1  kiyohara #include <dev/scsipi/scsi_spc.h>
1.1  kiyohara #include <dev/scsipi/scsi_all.h>
1.1  kiyohara #include <dev/scsipi/scsipi_all.h>
1.1  kiyohara #include <dev/scsipi/scsiconf.h>
1.1  kiyohara #include <dev/scsipi/scsipiconf.h>
1.1  kiyohara
1.1  kiyohara #include <dev/ieee1394/fw_port.h>
1.1  kiyohara #include <dev/ieee1394/firewire.h>
1.1  kiyohara #include <dev/ieee1394/firewirereg.h>
1.1  kiyohara #include <dev/ieee1394/fwdma.h>
1.1  kiyohara #include <dev/ieee1394/iec13213.h>
1.1  kiyohara #include <dev/ieee1394/sbp.h>
1.1  kiyohara
1.1  kiyohara #include "locators.h"
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #define ccb_sdev_ptr	spriv_ptr0
1.1  kiyohara #define ccb_sbp_ptr	spriv_ptr1
1.1  kiyohara
1.1  kiyohara #define SBP_NUM_TARGETS 8 /* MAX 64 */
1.1  kiyohara /*
1.1  kiyohara  * Scan_bus doesn't work for more than 8 LUNs
1.1  kiyohara  * because of CAM_SCSI2_MAXLUN in cam_xpt.c
1.1  kiyohara  */
1.1  kiyohara #define SBP_NUM_LUNS 64
1.1  kiyohara #define SBP_DMA_SIZE PAGE_SIZE
1.1  kiyohara #define SBP_LOGIN_SIZE sizeof(struct sbp_login_res)
1.1  kiyohara #define SBP_QUEUE_LEN ((SBP_DMA_SIZE - SBP_LOGIN_SIZE) / sizeof(struct sbp_ocb))
1.1  kiyohara #define SBP_NUM_OCB (SBP_QUEUE_LEN * SBP_NUM_TARGETS)
1.1  kiyohara
1.1  kiyohara /*
1.1  kiyohara  * STATUS FIFO addressing
1.1  kiyohara  *   bit
1.1  kiyohara  * -----------------------
1.1  kiyohara  *  0- 1( 2): 0 (alignment)
1.1  kiyohara  *  2- 9( 8): lun
1.1  kiyohara  * 10-31(14): unit
1.1  kiyohara  * 32-47(16): SBP_BIND_HI
1.1  kiyohara  * 48-64(16): bus_id, node_id
1.1  kiyohara  */
1.1  kiyohara #define SBP_BIND_HI 0x1
1.1  kiyohara #define SBP_DEV2ADDR(u, l) \
1.1  kiyohara 	(((u_int64_t)SBP_BIND_HI << 32) \
1.1  kiyohara 	| (((u) & 0x3fff) << 10) \
1.1  kiyohara 	| (((l) & 0xff) << 2))
1.1  kiyohara #define SBP_ADDR2UNIT(a)	(((a) >> 10) & 0x3fff)
1.1  kiyohara #define SBP_ADDR2LUN(a)		(((a) >> 2) & 0xff)
1.1  kiyohara #define SBP_INITIATOR 7
1.1  kiyohara
1.1  kiyohara static const char *orb_fun_name[] = {
1.1  kiyohara 	ORB_FUN_NAMES
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara static int debug = 0;
1.1  kiyohara static int auto_login = 1;
1.1  kiyohara static int max_speed = -1;
1.1  kiyohara static int sbp_cold = 1;
1.1  kiyohara static int ex_login = 1;
1.1  kiyohara static int login_delay = 1000;	/* msec */
1.1  kiyohara static int scan_delay = 500;	/* msec */
1.1  kiyohara static int use_doorbell = 0;
1.1  kiyohara static int sbp_tags = 0;
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara SYSCTL_DECL(_hw_firewire);
1.1  kiyohara SYSCTL_NODE(_hw_firewire, OID_AUTO, sbp, CTLFLAG_RD, 0, "SBP-II Subsystem");
1.1  kiyohara SYSCTL_INT(_debug, OID_AUTO, sbp_debug, CTLFLAG_RW, &debug, 0,
1.1  kiyohara 	"SBP debug flag");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, auto_login, CTLFLAG_RW, &auto_login, 0,
1.1  kiyohara 	"SBP perform login automatically");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, max_speed, CTLFLAG_RW, &max_speed, 0,
1.1  kiyohara 	"SBP transfer max speed");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, exclusive_login, CTLFLAG_RW,
1.1  kiyohara 	&ex_login, 0, "SBP enable exclusive login");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, login_delay, CTLFLAG_RW,
1.1  kiyohara 	&login_delay, 0, "SBP login delay in msec");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, scan_delay, CTLFLAG_RW,
1.1  kiyohara 	&scan_delay, 0, "SBP scan delay in msec");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, use_doorbell, CTLFLAG_RW,
1.1  kiyohara 	&use_doorbell, 0, "SBP use doorbell request");
1.1  kiyohara SYSCTL_INT(_hw_firewire_sbp, OID_AUTO, tags, CTLFLAG_RW, &sbp_tags, 0,
1.1  kiyohara 	"SBP tagged queuing support");
1.1  kiyohara
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.auto_login", &auto_login);
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.max_speed", &max_speed);
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.exclusive_login", &ex_login);
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.login_delay", &login_delay);
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.scan_delay", &scan_delay);
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.use_doorbell", &use_doorbell);
1.1  kiyohara TUNABLE_INT("hw.firewire.sbp.tags", &sbp_tags);
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara static int sysctl_sbp_verify(SYSCTLFN_PROTO, int lower, int upper);
1.1  kiyohara static int sysctl_sbp_verify_max_speed(SYSCTLFN_PROTO);
1.1  kiyohara static int sysctl_sbp_verify_tags(SYSCTLFN_PROTO);
1.1  kiyohara
1.1  kiyohara /*
1.1  kiyohara  * Setup sysctl(3) MIB, hw.sbp.*
1.1  kiyohara  *
1.1  kiyohara  * TBD condition CTLFLAG_PERMANENT on being an LKM or not
1.1  kiyohara  */
1.1  kiyohara SYSCTL_SETUP(sysctl_sbp, "sysctl sbp(4) subtree setup")
1.1  kiyohara {
1.1  kiyohara 	int rc, sbp_node_num;
1.1  kiyohara 	const struct sysctlnode *node;
1.1  kiyohara
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, NULL,
1.1  kiyohara 	    CTLFLAG_PERMANENT, CTLTYPE_NODE, "hw", NULL,
1.1  kiyohara 	    NULL, 0, NULL, 0, CTL_HW, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT, CTLTYPE_NODE, "sbp",
1.1  kiyohara 	    SYSCTL_DESCR("sbp controls"), NULL, 0, NULL,
1.1  kiyohara 	    0, CTL_HW, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara 	sbp_node_num = node->sysctl_num;
1.1  kiyohara
1.1  kiyohara 	/* sbp auto login flag */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "auto_login", SYSCTL_DESCR("SBP perform login automatically"),
1.1  kiyohara 	    NULL, 0, &auto_login,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp max speed */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "max_speed", SYSCTL_DESCR("SBP transfer max speed"),
1.1  kiyohara 	    sysctl_sbp_verify_max_speed, 0, &max_speed,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp exclusive login flag */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "exclusive_login", SYSCTL_DESCR("SBP enable exclusive login"),
1.1  kiyohara 	    NULL, 0, &ex_login,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp login delay */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "login_delay", SYSCTL_DESCR("SBP login delay in msec"),
1.1  kiyohara 	    NULL, 0, &login_delay,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp scan delay */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "scan_delay", SYSCTL_DESCR("SBP scan delay in msec"),
1.1  kiyohara 	    NULL, 0, &scan_delay,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp use doorbell flag */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "use_doorbell", SYSCTL_DESCR("SBP use doorbell request"),
1.1  kiyohara 	    NULL, 0, &use_doorbell,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp force tagged queuing */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "tags", SYSCTL_DESCR("SBP tagged queuing support"),
1.1  kiyohara 	    sysctl_sbp_verify_tags, 0, &sbp_tags,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* sbp driver debug flag */
1.1  kiyohara 	if ((rc = sysctl_createv(clog, 0, NULL, &node,
1.1  kiyohara 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.1  kiyohara 	    "sbp_debug", SYSCTL_DESCR("SBP debug flag"),
1.1  kiyohara 	    NULL, 0, &debug,
1.1  kiyohara 	    0, CTL_HW, sbp_node_num, CTL_CREATE, CTL_EOL)) != 0) {
1.1  kiyohara 		goto err;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	return;
1.1  kiyohara
1.1  kiyohara err:
1.1  kiyohara 	printf("%s: sysctl_createv failed (rc = %d)\n", __func__, rc);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static int
1.1  kiyohara sysctl_sbp_verify(SYSCTLFN_ARGS, int lower, int upper)
1.1  kiyohara {
1.1  kiyohara 	int error, t;
1.1  kiyohara 	struct sysctlnode node;
1.1  kiyohara
1.1  kiyohara 	node = *rnode;
1.1  kiyohara 	t = *(int*)rnode->sysctl_data;
1.1  kiyohara 	node.sysctl_data = &t;
1.1  kiyohara 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
1.1  kiyohara 	if (error || newp == NULL)
1.1  kiyohara 		return (error);
1.1  kiyohara
1.1  kiyohara 	if (t < lower || t > upper)
1.1  kiyohara 		return (EINVAL);
1.1  kiyohara
1.1  kiyohara 	*(int*)rnode->sysctl_data = t;
1.1  kiyohara
1.1  kiyohara 	return (0);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static int
1.1  kiyohara sysctl_sbp_verify_max_speed(SYSCTLFN_ARGS)
1.1  kiyohara {
1.1  kiyohara 	return (sysctl_sbp_verify(SYSCTLFN_CALL(rnode), 0, FWSPD_S400));
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static int
1.1  kiyohara sysctl_sbp_verify_tags(SYSCTLFN_ARGS)
1.1  kiyohara {
1.1  kiyohara 	return (sysctl_sbp_verify(SYSCTLFN_CALL(rnode), -1, 1));
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #define NEED_RESPONSE 0
1.1  kiyohara
1.1  kiyohara #define SBP_SEG_MAX rounddown(0xffff, PAGE_SIZE)
1.1  kiyohara #ifdef __sparc64__ /* iommu */
1.1  kiyohara #define SBP_IND_MAX howmany(MAXPHYS, SBP_SEG_MAX)
1.1  kiyohara #else
1.1  kiyohara #define SBP_IND_MAX howmany(MAXPHYS, PAGE_SIZE)
1.1  kiyohara #endif
1.1  kiyohara struct sbp_ocb {
1.1  kiyohara 	STAILQ_ENTRY(sbp_ocb)	ocb;
1.1  kiyohara 	sbp_scsi_xfer *sxfer;
1.1  kiyohara 	bus_addr_t	bus_addr;
1.1  kiyohara 	uint32_t	orb[8];
1.1  kiyohara #define IND_PTR_OFFSET	(8*sizeof(uint32_t))
1.1  kiyohara 	struct ind_ptr  ind_ptr[SBP_IND_MAX];
1.1  kiyohara 	struct sbp_dev	*sdev;
1.1  kiyohara 	int		flags; /* XXX should be removed */
1.1  kiyohara 	bus_dmamap_t	dmamap;
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara #define OCB_ACT_MGM 0
1.1  kiyohara #define OCB_ACT_CMD 1
1.1  kiyohara #define OCB_MATCH(o,s)	((o)->bus_addr == ntohl((s)->orb_lo))
1.1  kiyohara
1.1  kiyohara struct sbp_dev{
1.1  kiyohara #define SBP_DEV_RESET		0	/* accept login */
1.1  kiyohara #define SBP_DEV_LOGIN		1	/* to login */
1.1  kiyohara #if 0
1.1  kiyohara #define SBP_DEV_RECONN		2	/* to reconnect */
1.1  kiyohara #endif
1.1  kiyohara #define SBP_DEV_TOATTACH	3	/* to attach */
1.1  kiyohara #define SBP_DEV_PROBE		4	/* scan lun */
1.1  kiyohara #define SBP_DEV_ATTACHED	5	/* in operation */
1.1  kiyohara #define SBP_DEV_DEAD		6	/* unavailable unit */
1.1  kiyohara #define SBP_DEV_RETRY		7	/* unavailable unit */
1.1  kiyohara 	uint8_t status:4,
1.1  kiyohara 		 timeout:4;
1.1  kiyohara 	uint8_t type;
1.1  kiyohara 	uint16_t lun_id;
1.1  kiyohara 	uint16_t freeze;
1.1  kiyohara #define	ORB_LINK_DEAD		(1 << 0)
1.1  kiyohara #define	VALID_LUN		(1 << 1)
1.1  kiyohara #define	ORB_POINTER_ACTIVE	(1 << 2)
1.1  kiyohara #define	ORB_POINTER_NEED	(1 << 3)
1.1  kiyohara #define	ORB_DOORBELL_ACTIVE	(1 << 4)
1.1  kiyohara #define	ORB_DOORBELL_NEED	(1 << 5)
1.1  kiyohara #define	ORB_SHORTAGE		(1 << 6)
1.1  kiyohara 	uint16_t flags;
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	struct cam_path *path;
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara 	struct scsipi_periph *periph;
1.1  kiyohara #endif
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	struct fwdma_alloc dma;
1.1  kiyohara 	struct sbp_login_res *login;
1.1  kiyohara 	struct callout login_callout;
1.1  kiyohara 	struct sbp_ocb *ocb;
1.1  kiyohara 	STAILQ_HEAD(, sbp_ocb) ocbs;
1.1  kiyohara 	STAILQ_HEAD(, sbp_ocb) free_ocbs;
1.1  kiyohara 	struct sbp_ocb *last_ocb;
1.1  kiyohara 	char vendor[32];
1.1  kiyohara 	char product[32];
1.1  kiyohara 	char revision[10];
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara struct sbp_target {
1.1  kiyohara 	int target_id;
1.1  kiyohara 	int num_lun;
1.1  kiyohara 	struct sbp_dev	**luns;
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara 	struct fw_device *fwdev;
1.1  kiyohara 	uint32_t mgm_hi, mgm_lo;
1.1  kiyohara 	struct sbp_ocb *mgm_ocb_cur;
1.1  kiyohara 	STAILQ_HEAD(, sbp_ocb) mgm_ocb_queue;
1.1  kiyohara 	struct callout mgm_ocb_timeout;
1.1  kiyohara 	struct callout scan_callout;
1.1  kiyohara 	STAILQ_HEAD(, fw_xfer) xferlist;
1.1  kiyohara 	int n_xfer;
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara struct sbp_softc {
1.1  kiyohara 	struct firewire_dev_comm fd;
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	struct cam_sim  *sim;
1.1  kiyohara 	struct cam_path  *path;
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara 	struct scsipi_adapter sc_adapter;
1.1  kiyohara 	struct scsipi_channel sc_channel;
1.1  kiyohara 	struct device *sc_bus;
1.1  kiyohara 	struct proc *proc;
1.1  kiyohara #endif
1.1  kiyohara 	struct sbp_target target;
1.1  kiyohara 	struct fw_bind fwb;
1.1  kiyohara 	fw_bus_dma_tag_t dmat;
1.1  kiyohara 	struct timeval last_busreset;
1.1  kiyohara #define SIMQ_FREEZED 1
1.1  kiyohara 	int flags;
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara #if defined(__NetBSD__)
1.1  kiyohara int sbpmatch (struct device *, struct cfdata *, void *);
1.1  kiyohara void sbpattach (struct device *parent, struct device *self, void *aux);
1.1  kiyohara int sbpdetach (struct device *self, int flags);
1.1  kiyohara #endif
1.1  kiyohara static void sbp_post_explore (void *);
1.1  kiyohara static void sbp_recv (struct fw_xfer *);
1.1  kiyohara static void sbp_mgm_callback (struct fw_xfer *);
1.1  kiyohara #if 0
1.1  kiyohara static void sbp_cmd_callback (struct fw_xfer *);
1.1  kiyohara #endif
1.1  kiyohara static void sbp_orb_pointer (struct sbp_dev *, struct sbp_ocb *);
1.1  kiyohara static void sbp_doorbell(struct sbp_dev *);
1.1  kiyohara static void sbp_execute_ocb (void *,  bus_dma_segment_t *, int, int);
1.1  kiyohara static void sbp_free_ocb (struct sbp_dev *, struct sbp_ocb *);
1.1  kiyohara static void sbp_abort_ocb (struct sbp_ocb *, int);
1.1  kiyohara static void sbp_abort_all_ocbs (struct sbp_dev *, int);
1.1  kiyohara static struct fw_xfer * sbp_write_cmd (struct sbp_dev *, int, int);
1.1  kiyohara static struct sbp_ocb * sbp_get_ocb (struct sbp_dev *);
1.1  kiyohara static struct sbp_ocb * sbp_enqueue_ocb (struct sbp_dev *, struct sbp_ocb *);
1.1  kiyohara static struct sbp_ocb * sbp_dequeue_ocb (struct sbp_dev *, struct sbp_status *);
1.1  kiyohara static void sbp_free_sdev(struct sbp_dev *);
1.1  kiyohara static void sbp_free_target (struct sbp_target *);
1.1  kiyohara static void sbp_mgm_timeout (void *arg);
1.1  kiyohara static void sbp_timeout (void *arg);
1.1  kiyohara static void sbp_mgm_orb (struct sbp_dev *, int, struct sbp_ocb *);
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara
1.1  kiyohara MALLOC_DEFINE(M_SBP, "sbp", "SBP-II/FireWire");
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara static void sbp_scsipi_request(
1.1  kiyohara     struct scsipi_channel *, scsipi_adapter_req_t, void *);
1.1  kiyohara static void sbp_minphys(struct buf *);
1.1  kiyohara
1.1  kiyohara MALLOC_DEFINE(M_SBP, "sbp", "SBP-II/IEEE1394");
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara /* cam related functions */
1.1  kiyohara static void	sbp_action(struct cam_sim *, sbp_scsi_xfer *sxfer);
1.1  kiyohara static void	sbp_poll(struct cam_sim *);
1.1  kiyohara static void	sbp_cam_scan_lun(struct cam_periph *, sbp_scsi_xfer *);
1.1  kiyohara static void	sbp_cam_scan_target(void *);
1.1  kiyohara static void	sbp_cam_detach_sdev(struct sbp_dev *);
1.1  kiyohara static void	sbp_cam_detach_target (struct sbp_target *);
1.1  kiyohara #define SBP_DETACH_SDEV(sd)	sbp_cam_detach_sdev((sd))
1.1  kiyohara #define SBP_DETACH_TARGET(st)	sbp_cam_detach_target((st))
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara /* scsipi related functions */
1.1  kiyohara static void	fw_kthread_create0(void *);
1.1  kiyohara static void	sbp_scsipi_scan_target(void *);
1.1  kiyohara static void	sbp_scsipi_detach_sdev(struct sbp_dev *);
1.1  kiyohara static void	sbp_scsipi_detach_target (struct sbp_target *);
1.1  kiyohara #define SBP_DETACH_SDEV(sd)	sbp_scsipi_detach_sdev((sd))
1.1  kiyohara #define SBP_DETACH_TARGET(st)	sbp_scsipi_detach_target((st))
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara static const char *orb_status0[] = {
1.1  kiyohara 	/* 0 */ "No additional information to report",
1.1  kiyohara 	/* 1 */ "Request type not supported",
1.1  kiyohara 	/* 2 */ "Speed not supported",
1.1  kiyohara 	/* 3 */ "Page size not supported",
1.1  kiyohara 	/* 4 */ "Access denied",
1.1  kiyohara 	/* 5 */ "Logical unit not supported",
1.1  kiyohara 	/* 6 */ "Maximum payload too small",
1.1  kiyohara 	/* 7 */ "Reserved for future standardization",
1.1  kiyohara 	/* 8 */ "Resources unavailable",
1.1  kiyohara 	/* 9 */ "Function rejected",
1.1  kiyohara 	/* A */ "Login ID not recognized",
1.1  kiyohara 	/* B */ "Dummy ORB completed",
1.1  kiyohara 	/* C */ "Request aborted",
1.1  kiyohara 	/* FF */ "Unspecified error"
1.1  kiyohara #define MAX_ORB_STATUS0 0xd
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara static const char *orb_status1_object[] = {
1.1  kiyohara 	/* 0 */ "Operation request block (ORB)",
1.1  kiyohara 	/* 1 */ "Data buffer",
1.1  kiyohara 	/* 2 */ "Page table",
1.1  kiyohara 	/* 3 */ "Unable to specify"
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara static const char *orb_status1_serial_bus_error[] = {
1.1  kiyohara 	/* 0 */ "Missing acknowledge",
1.1  kiyohara 	/* 1 */ "Reserved; not to be used",
1.1  kiyohara 	/* 2 */ "Time-out error",
1.1  kiyohara 	/* 3 */ "Reserved; not to be used",
1.1  kiyohara 	/* 4 */ "Busy retry limit exceeded(X)",
1.1  kiyohara 	/* 5 */ "Busy retry limit exceeded(A)",
1.1  kiyohara 	/* 6 */ "Busy retry limit exceeded(B)",
1.1  kiyohara 	/* 7 */ "Reserved for future standardization",
1.1  kiyohara 	/* 8 */ "Reserved for future standardization",
1.1  kiyohara 	/* 9 */ "Reserved for future standardization",
1.1  kiyohara 	/* A */ "Reserved for future standardization",
1.1  kiyohara 	/* B */ "Tardy retry limit exceeded",
1.1  kiyohara 	/* C */ "Conflict error",
1.1  kiyohara 	/* D */ "Data error",
1.1  kiyohara 	/* E */ "Type error",
1.1  kiyohara 	/* F */ "Address error"
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara #if 0
1.1  kiyohara static void
1.1  kiyohara sbp_identify(driver_t *driver, device_t parent)
1.1  kiyohara {
1.1  kiyohara 	device_t child;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_identify\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	child = BUS_ADD_CHILD(parent, 0, "sbp", device_get_unit(parent));
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara /*
1.1  kiyohara  * sbp_probe()
1.1  kiyohara  */
1.1  kiyohara static int
1.1  kiyohara sbp_probe(device_t dev)
1.1  kiyohara {
1.1  kiyohara 	device_t pa;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_probe\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	pa = device_get_parent(dev);
1.1  kiyohara 	if(device_get_unit(dev) != device_get_unit(pa)){
1.1  kiyohara 		return(ENXIO);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	device_set_desc(dev, "SBP-2/SCSI over FireWire");
1.1  kiyohara
1.1  kiyohara #if 0
1.1  kiyohara 	if (bootverbose)
1.1  kiyohara 		debug = bootverbose;
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 	return (0);
1.1  kiyohara }
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara int
1.1  kiyohara sbpmatch(struct device *parent, struct cfdata *cf, void *aux)
1.1  kiyohara {
1.1  kiyohara 	struct fw_attach_args *fwa = aux;
1.1  kiyohara
1.1  kiyohara 	if (strcmp(fwa->name, "sbp") == 0)
1.1  kiyohara 		return (1);
1.1  kiyohara 	return (0);
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_show_sdev_info(struct sbp_dev *sdev, int new)
1.1  kiyohara {
1.1  kiyohara 	struct fw_device *fwdev;
1.1  kiyohara
1.1  kiyohara 	printf("%s:%d:%d ",
1.1  kiyohara 		device_get_nameunit(sdev->target->sbp->fd.dev),
1.1  kiyohara 		sdev->target->target_id,
1.1  kiyohara 		sdev->lun_id
1.1  kiyohara 	);
1.1  kiyohara 	if (new == 2) {
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	fwdev = sdev->target->fwdev;
1.1  kiyohara 	printf("ordered:%d type:%d EUI:%08x%08x node:%d "
1.1  kiyohara 		"speed:%d maxrec:%d",
1.1  kiyohara 		(sdev->type & 0x40) >> 6,
1.1  kiyohara 		(sdev->type & 0x1f),
1.1  kiyohara 		fwdev->eui.hi,
1.1  kiyohara 		fwdev->eui.lo,
1.1  kiyohara 		fwdev->dst,
1.1  kiyohara 		fwdev->speed,
1.1  kiyohara 		fwdev->maxrec
1.1  kiyohara 	);
1.1  kiyohara 	if (new)
1.1  kiyohara 		printf(" new!\n");
1.1  kiyohara 	else
1.1  kiyohara 		printf("\n");
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("'%s' '%s' '%s'\n", sdev->vendor, sdev->product, sdev->revision);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_alloc_lun(struct sbp_target *target)
1.1  kiyohara {
1.1  kiyohara 	struct crom_context cc;
1.1  kiyohara 	struct csrreg *reg;
1.1  kiyohara 	struct sbp_dev *sdev, **newluns;
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara 	int maxlun, lun, i;
1.1  kiyohara
1.1  kiyohara 	sbp = target->sbp;
1.1  kiyohara 	crom_init_context(&cc, target->fwdev->csrrom);
1.1  kiyohara 	/* XXX shoud parse appropriate unit directories only */
1.1  kiyohara 	maxlun = -1;
1.1  kiyohara 	while (cc.depth >= 0) {
1.1  kiyohara 		reg = crom_search_key(&cc, CROM_LUN);
1.1  kiyohara 		if (reg == NULL)
1.1  kiyohara 			break;
1.1  kiyohara 		lun = reg->val & 0xffff;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 		printf("target %d lun %d found\n", target->target_id, lun);
1.1  kiyohara END_DEBUG
1.1  kiyohara 		if (maxlun < lun)
1.1  kiyohara 			maxlun = lun;
1.1  kiyohara 		crom_next(&cc);
1.1  kiyohara 	}
1.1  kiyohara 	if (maxlun < 0)
1.1  kiyohara 		printf("%s:%d no LUN found\n",
1.1  kiyohara 		    device_get_nameunit(target->sbp->fd.dev),
1.1  kiyohara 		    target->target_id);
1.1  kiyohara
1.1  kiyohara 	maxlun ++;
1.1  kiyohara 	if (maxlun >= SBP_NUM_LUNS)
1.1  kiyohara 		maxlun = SBP_NUM_LUNS;
1.1  kiyohara
1.1  kiyohara 	/* Invalidiate stale devices */
1.1  kiyohara 	for (lun = 0; lun < target->num_lun; lun ++) {
1.1  kiyohara 		sdev = target->luns[lun];
1.1  kiyohara 		if (sdev == NULL)
1.1  kiyohara 			continue;
1.1  kiyohara 		sdev->flags &= ~VALID_LUN;
1.1  kiyohara 		if (lun >= maxlun) {
1.1  kiyohara 			/* lost device */
1.1  kiyohara 			SBP_DETACH_SDEV(sdev);
1.1  kiyohara 			sbp_free_sdev(sdev);
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* Reallocate */
1.1  kiyohara 	if (maxlun != target->num_lun) {
1.1  kiyohara 		newluns = (struct sbp_dev **) realloc(target->luns,
1.1  kiyohara 		    sizeof(struct sbp_dev *) * maxlun,
1.1  kiyohara 		    M_SBP, M_NOWAIT | M_ZERO);
1.1  kiyohara
1.1  kiyohara 		if (newluns == NULL) {
1.1  kiyohara 			printf("%s: realloc failed\n", __func__);
1.1  kiyohara 			newluns = target->luns;
1.1  kiyohara 			maxlun = target->num_lun;
1.1  kiyohara 		}
1.1  kiyohara
1.1  kiyohara 		/*
1.1  kiyohara 		 * We must zero the extended region for the case
1.1  kiyohara 		 * realloc() doesn't allocate new buffer.
1.1  kiyohara 		 */
1.1  kiyohara 		if (maxlun > target->num_lun)
1.1  kiyohara 			bzero(&newluns[target->num_lun],
1.1  kiyohara 			    sizeof(struct sbp_dev *) *
1.1  kiyohara 			    (maxlun - target->num_lun));
1.1  kiyohara
1.1  kiyohara 		target->luns = newluns;
1.1  kiyohara 		target->num_lun = maxlun;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	crom_init_context(&cc, target->fwdev->csrrom);
1.1  kiyohara 	while (cc.depth >= 0) {
1.1  kiyohara 		int new = 0;
1.1  kiyohara
1.1  kiyohara 		reg = crom_search_key(&cc, CROM_LUN);
1.1  kiyohara 		if (reg == NULL)
1.1  kiyohara 			break;
1.1  kiyohara 		lun = reg->val & 0xffff;
1.1  kiyohara 		if (lun >= SBP_NUM_LUNS) {
1.1  kiyohara 			printf("too large lun %d\n", lun);
1.1  kiyohara 			goto next;
1.1  kiyohara 		}
1.1  kiyohara
1.1  kiyohara 		sdev = target->luns[lun];
1.1  kiyohara 		if (sdev == NULL) {
1.1  kiyohara 			sdev = malloc(sizeof(struct sbp_dev),
1.1  kiyohara 			    M_SBP, M_NOWAIT | M_ZERO);
1.1  kiyohara 			if (sdev == NULL) {
1.1  kiyohara 				printf("%s: malloc failed\n", __func__);
1.1  kiyohara 				goto next;
1.1  kiyohara 			}
1.1  kiyohara 			target->luns[lun] = sdev;
1.1  kiyohara 			sdev->lun_id = lun;
1.1  kiyohara 			sdev->target = target;
1.1  kiyohara 			STAILQ_INIT(&sdev->ocbs);
1.1  kiyohara 			CALLOUT_INIT(&sdev->login_callout);
1.1  kiyohara 			sdev->status = SBP_DEV_RESET;
1.1  kiyohara 			new = 1;
1.1  kiyohara 			SBP_DEVICE_PREATTACH();
1.1  kiyohara 		}
1.1  kiyohara 		sdev->flags |= VALID_LUN;
1.1  kiyohara 		sdev->type = (reg->val & 0xff0000) >> 16;
1.1  kiyohara
1.1  kiyohara 		if (new == 0)
1.1  kiyohara 			goto next;
1.1  kiyohara
1.1  kiyohara 		fwdma_malloc(sbp->fd.fc,
1.1  kiyohara 			/* alignment */ sizeof(uint32_t),
1.1  kiyohara 			SBP_DMA_SIZE, &sdev->dma, BUS_DMA_NOWAIT);
1.1  kiyohara 		if (sdev->dma.v_addr == NULL) {
1.1  kiyohara 			printf("%s: dma space allocation failed\n",
1.1  kiyohara 							__func__);
1.1  kiyohara 			free(sdev, M_SBP);
1.1  kiyohara 			target->luns[lun] = NULL;
1.1  kiyohara 			goto next;
1.1  kiyohara 		}
1.1  kiyohara 		sdev->login = (struct sbp_login_res *) sdev->dma.v_addr;
1.1  kiyohara 		sdev->ocb = (struct sbp_ocb *)
1.1  kiyohara 				((char *)sdev->dma.v_addr + SBP_LOGIN_SIZE);
1.1  kiyohara 		bzero((char *)sdev->ocb,
1.1  kiyohara 			sizeof (struct sbp_ocb) * SBP_QUEUE_LEN);
1.1  kiyohara
1.1  kiyohara 		STAILQ_INIT(&sdev->free_ocbs);
1.1  kiyohara 		for (i = 0; i < SBP_QUEUE_LEN; i++) {
1.1  kiyohara 			struct sbp_ocb *ocb;
1.1  kiyohara 			ocb = &sdev->ocb[i];
1.1  kiyohara 			ocb->bus_addr = sdev->dma.bus_addr
1.1  kiyohara 				+ SBP_LOGIN_SIZE
1.1  kiyohara 				+ sizeof(struct sbp_ocb) * i
1.1  kiyohara 				+ offsetof(struct sbp_ocb, orb[0]);
1.1  kiyohara 			if (fw_bus_dmamap_create(sbp->dmat, 0, &ocb->dmamap)) {
1.1  kiyohara 				printf("sbp_attach: cannot create dmamap\n");
1.1  kiyohara 				/* XXX */
1.1  kiyohara 				goto next;
1.1  kiyohara 			}
1.1  kiyohara 			sbp_free_ocb(sdev, ocb);
1.1  kiyohara 		}
1.1  kiyohara next:
1.1  kiyohara 		crom_next(&cc);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	for (lun = 0; lun < target->num_lun; lun ++) {
1.1  kiyohara 		sdev = target->luns[lun];
1.1  kiyohara 		if (sdev != NULL && (sdev->flags & VALID_LUN) == 0) {
1.1  kiyohara 			SBP_DETACH_SDEV(sdev);
1.1  kiyohara 			sbp_free_sdev(sdev);
1.1  kiyohara 			target->luns[lun] = NULL;
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static struct sbp_target *
1.1  kiyohara sbp_alloc_target(struct sbp_softc *sbp, struct fw_device *fwdev)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	struct crom_context cc;
1.1  kiyohara 	struct csrreg *reg;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	printf("sbp_alloc_target\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	/* new target */
1.1  kiyohara 	target = &sbp->target;
1.1  kiyohara 	target->sbp = sbp;
1.1  kiyohara 	target->fwdev = fwdev;
1.1  kiyohara 	target->target_id = 0;
1.1  kiyohara 	/* XXX we may want to reload mgm port after each bus reset */
1.1  kiyohara 	/* XXX there might be multiple management agents */
1.1  kiyohara 	crom_init_context(&cc, target->fwdev->csrrom);
1.1  kiyohara 	reg = crom_search_key(&cc, CROM_MGM);
1.1  kiyohara 	if (reg == NULL || reg->val == 0) {
1.1  kiyohara 		printf("NULL management address\n");
1.1  kiyohara 		target->fwdev = NULL;
1.1  kiyohara 		return NULL;
1.1  kiyohara 	}
1.1  kiyohara 	target->mgm_hi = 0xffff;
1.1  kiyohara 	target->mgm_lo = 0xf0000000 | (reg->val << 2);
1.1  kiyohara 	target->mgm_ocb_cur = NULL;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	printf("target: mgm_port: %x\n", target->mgm_lo);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	STAILQ_INIT(&target->xferlist);
1.1  kiyohara 	target->n_xfer = 0;
1.1  kiyohara 	STAILQ_INIT(&target->mgm_ocb_queue);
1.1  kiyohara 	CALLOUT_INIT(&target->mgm_ocb_timeout);
1.1  kiyohara 	CALLOUT_INIT(&target->scan_callout);
1.1  kiyohara
1.1  kiyohara 	target->luns = NULL;
1.1  kiyohara 	target->num_lun = 0;
1.1  kiyohara 	return target;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_probe_lun(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct fw_device *fwdev;
1.1  kiyohara 	struct crom_context c, *cc = &c;
1.1  kiyohara 	struct csrreg *reg;
1.1  kiyohara
1.1  kiyohara 	bzero(sdev->vendor, sizeof(sdev->vendor));
1.1  kiyohara 	bzero(sdev->product, sizeof(sdev->product));
1.1  kiyohara
1.1  kiyohara 	fwdev = sdev->target->fwdev;
1.1  kiyohara 	crom_init_context(cc, fwdev->csrrom);
1.1  kiyohara 	/* get vendor string */
1.1  kiyohara 	crom_search_key(cc, CSRKEY_VENDOR);
1.1  kiyohara 	crom_next(cc);
1.1  kiyohara 	crom_parse_text(cc, sdev->vendor, sizeof(sdev->vendor));
1.1  kiyohara 	/* skip to the unit directory for SBP-2 */
1.1  kiyohara 	while ((reg = crom_search_key(cc, CSRKEY_VER)) != NULL) {
1.1  kiyohara 		if (reg->val == CSRVAL_T10SBP2)
1.1  kiyohara 			break;
1.1  kiyohara 		crom_next(cc);
1.1  kiyohara 	}
1.1  kiyohara 	/* get firmware revision */
1.1  kiyohara 	reg = crom_search_key(cc, CSRKEY_FIRM_VER);
1.1  kiyohara 	if (reg != NULL)
1.1  kiyohara 		snprintf(sdev->revision, sizeof(sdev->revision),
1.1  kiyohara 						"%06x", reg->val);
1.1  kiyohara 	/* get product string */
1.1  kiyohara 	crom_search_key(cc, CSRKEY_MODEL);
1.1  kiyohara 	crom_next(cc);
1.1  kiyohara 	crom_parse_text(cc, sdev->product, sizeof(sdev->product));
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_login_callout(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev = (struct sbp_dev *)arg;
1.1  kiyohara 	sbp_mgm_orb(sdev, ORB_FUN_LGI, NULL);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_login(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct timeval delta;
1.1  kiyohara 	struct timeval t;
1.1  kiyohara 	int ticks = 0;
1.1  kiyohara
1.1  kiyohara 	microtime(&delta);
1.1  kiyohara 	timevalsub(&delta, &sdev->target->sbp->last_busreset);
1.1  kiyohara 	t.tv_sec = login_delay / 1000;
1.1  kiyohara 	t.tv_usec = (login_delay % 1000) * 1000;
1.1  kiyohara 	timevalsub(&t, &delta);
1.1  kiyohara 	if (t.tv_sec >= 0 && t.tv_usec > 0)
1.1  kiyohara 		ticks = (t.tv_sec * 1000 + t.tv_usec / 1000) * hz / 1000;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("%s: sec = %ld usec = %ld ticks = %d\n", __func__,
1.1  kiyohara 	    t.tv_sec, t.tv_usec, ticks);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	callout_reset(&sdev->login_callout, ticks,
1.1  kiyohara 			sbp_login_callout, (void *)(sdev));
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_probe_target(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target = (struct sbp_target *)arg;
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	struct firewire_comm *fc;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	printf("sbp_probe_target %d\n", target->target_id);
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	sbp = target->sbp;
1.1  kiyohara 	fc = target->sbp->fd.fc;
1.1  kiyohara 	sbp_alloc_lun(target);
1.1  kiyohara
1.1  kiyohara 	/* XXX untimeout mgm_ocb and dequeue */
1.1  kiyohara 	for (i=0; i < target->num_lun; i++) {
1.1  kiyohara 		sdev = target->luns[i];
1.1  kiyohara 		if (sdev == NULL)
1.1  kiyohara 			continue;
1.1  kiyohara 		if (sdev->status != SBP_DEV_DEAD) {
1.1  kiyohara 			if (SBP_DEVICE(sdev) != NULL) {
1.1  kiyohara 				SBP_DEVICE_FREEZE(sdev, 1);
1.1  kiyohara 				sdev->freeze ++;
1.1  kiyohara 			}
1.1  kiyohara 			sbp_probe_lun(sdev);
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 			sbp_show_sdev_info(sdev,
1.1  kiyohara 					(sdev->status == SBP_DEV_RESET));
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 			sbp_abort_all_ocbs(sdev, XS_SCSI_BUS_RESET);
1.1  kiyohara 			switch (sdev->status) {
1.1  kiyohara 			case SBP_DEV_RESET:
1.1  kiyohara 				/* new or revived target */
1.1  kiyohara 				if (auto_login)
1.1  kiyohara 					sbp_login(sdev);
1.1  kiyohara 				break;
1.1  kiyohara 			case SBP_DEV_TOATTACH:
1.1  kiyohara 			case SBP_DEV_PROBE:
1.1  kiyohara 			case SBP_DEV_ATTACHED:
1.1  kiyohara 			case SBP_DEV_RETRY:
1.1  kiyohara 			default:
1.1  kiyohara 				sbp_mgm_orb(sdev, ORB_FUN_RCN, NULL);
1.1  kiyohara 				break;
1.1  kiyohara 			}
1.1  kiyohara 		} else {
1.1  kiyohara 			switch (sdev->status) {
1.1  kiyohara 			case SBP_DEV_ATTACHED:
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 				/* the device has gone */
1.1  kiyohara 				sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 				printf("lost target\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 				if (SBP_DEVICE(sdev) != NULL) {
1.1  kiyohara 					SBP_DEVICE_FREEZE(sdev, 1);
1.1  kiyohara 					sdev->freeze ++;
1.1  kiyohara 				}
1.1  kiyohara 				sdev->status = SBP_DEV_RETRY;
1.1  kiyohara 				sbp_abort_all_ocbs(sdev, XS_SCSI_BUS_RESET);
1.1  kiyohara 				break;
1.1  kiyohara 			case SBP_DEV_PROBE:
1.1  kiyohara 			case SBP_DEV_TOATTACH:
1.1  kiyohara 				sdev->status = SBP_DEV_RESET;
1.1  kiyohara 				break;
1.1  kiyohara 			case SBP_DEV_RETRY:
1.1  kiyohara 			case SBP_DEV_RESET:
1.1  kiyohara 			case SBP_DEV_DEAD:
1.1  kiyohara 				break;
1.1  kiyohara 			}
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #define SBP_FWDEV_ALIVE(fwdev) (((fwdev)->status == FWDEVATTACHED) \
1.1  kiyohara 	&& crom_has_specver((fwdev)->csrrom, CSRVAL_ANSIT10, CSRVAL_T10SBP2))
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_post_busreset(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp = (struct sbp_softc *)arg;
1.1  kiyohara 	struct sbp_target *target = &sbp->target;
1.1  kiyohara 	struct fw_device *fwdev = target->fwdev;
1.1  kiyohara 	int alive;
1.1  kiyohara
1.1  kiyohara 	alive = SBP_FWDEV_ALIVE(fwdev);
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_post_busreset\n");
1.1  kiyohara 	if (!alive)
1.1  kiyohara 		printf("not alive\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if (!alive)
1.1  kiyohara 		return;
1.1  kiyohara
1.1  kiyohara 	SBP_BUS_FREEZE(sbp);
1.1  kiyohara
1.1  kiyohara 	microtime(&sbp->last_busreset);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_post_explore(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp = (struct sbp_softc *)arg;
1.1  kiyohara 	struct sbp_target *target = &sbp->target;
1.1  kiyohara 	struct fw_device *fwdev = target->fwdev;
1.1  kiyohara 	int alive;
1.1  kiyohara
1.1  kiyohara 	alive = SBP_FWDEV_ALIVE(fwdev);
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_post_explore (sbp_cold=%d)\n", sbp_cold);
1.1  kiyohara 	if (!alive)
1.1  kiyohara 		printf("not alive\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if (!alive)
1.1  kiyohara 		return;
1.1  kiyohara
1.1  kiyohara 	if (sbp_cold > 0)
1.1  kiyohara 		sbp_cold --;
1.1  kiyohara
1.1  kiyohara #if 0
1.1  kiyohara 	/*
1.1  kiyohara 	 * XXX don't let CAM the bus rest.
1.1  kiyohara 	 * CAM tries to do something with freezed (DEV_RETRY) devices.
1.1  kiyohara 	 */
1.1  kiyohara 	xpt_async(AC_BUS_RESET, sbp->path, /*arg*/ NULL);
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_post_explore: EUI:%08x%08x ", fwdev->eui.hi, fwdev->eui.lo);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	sbp_probe_target((void *)target);
1.1  kiyohara 	if (target->num_lun == 0)
1.1  kiyohara 		sbp_free_target(target);
1.1  kiyohara
1.1  kiyohara 	SBP_BUS_THAW(sbp);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if NEED_RESPONSE
1.1  kiyohara static void
1.1  kiyohara sbp_loginres_callback(struct fw_xfer *xfer){
1.1  kiyohara 	int s;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_loginres_callback\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	/* recycle */
1.1  kiyohara 	s = splfw();
1.1  kiyohara 	STAILQ_INSERT_TAIL(&sdev->target->sbp->fwb.xferlist, xfer, link);
1.1  kiyohara 	splx(s);
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.4     perry static inline void
1.1  kiyohara sbp_xfer_free(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	int s;
1.1  kiyohara
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara 	fw_xfer_unload(xfer);
1.1  kiyohara 	s = splfw();
1.1  kiyohara 	STAILQ_INSERT_TAIL(&sdev->target->xferlist, xfer, link);
1.1  kiyohara 	splx(s);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_reset_start_callback(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *tsdev, *sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara 	struct sbp_target *target = sdev->target;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara 	if (xfer->resp != 0) {
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("sbp_reset_start failed: resp=%d\n", xfer->resp);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	for (i = 0; i < target->num_lun; i++) {
1.1  kiyohara 		tsdev = target->luns[i];
1.1  kiyohara 		if (tsdev != NULL && tsdev->status == SBP_DEV_LOGIN)
1.1  kiyohara 			sbp_login(tsdev);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_reset_start(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_reset_start\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	xfer = sbp_write_cmd(sdev, FWTCODE_WREQQ, 0);
1.1  kiyohara 	xfer->hand = sbp_reset_start_callback;
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqq.dest_hi = 0xffff;
1.1  kiyohara 	fp->mode.wreqq.dest_lo = 0xf0000000 | RESET_START;
1.1  kiyohara 	fp->mode.wreqq.data = htonl(0xf);
1.1  kiyohara 	fw_asyreq(xfer->fc, -1, xfer);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_mgm_callback(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	int resp;
1.1  kiyohara
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_mgm_callback\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	resp = xfer->resp;
1.1  kiyohara 	sbp_xfer_free(xfer);
1.1  kiyohara #if 0
1.1  kiyohara 	if (resp != 0) {
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("management ORB failed(%d) ... RESET_START\n", resp);
1.1  kiyohara 		sbp_reset_start(sdev);
1.1  kiyohara 	}
1.1  kiyohara #endif
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara static struct sbp_dev *
1.1  kiyohara sbp_next_dev(struct sbp_target *target, int lun)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev **sdevp;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara 	for (i = lun, sdevp = &target->luns[lun]; i < target->num_lun;
1.1  kiyohara 	    i++, sdevp++)
1.1  kiyohara 		if (*sdevp != NULL && (*sdevp)->status == SBP_DEV_PROBE)
1.1  kiyohara 			return(*sdevp);
1.1  kiyohara 	return(NULL);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #define SCAN_PRI 1
1.1  kiyohara static void
1.1  kiyohara sbp_cam_scan_lun(struct cam_periph *periph, sbp_scsi_xfer *sxfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara
1.1  kiyohara 	sdev = (struct sbp_dev *) sxfer->ccb_h.ccb_sdev_ptr;
1.1  kiyohara 	target = sdev->target;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_cam_scan_lun\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if ((SCSI_XFER_ERROR(sxfer) & CAM_STATUS_MASK) == XS_REQ_CMP) {
1.1  kiyohara 		sdev->status = SBP_DEV_ATTACHED;
1.1  kiyohara 	} else {
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("scan failed\n");
1.1  kiyohara 	}
1.1  kiyohara 	sdev = sbp_next_dev(target, sdev->lun_id + 1);
1.1  kiyohara 	if (sdev == NULL) {
1.1  kiyohara 		free(sxfer, M_SBP);
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	/* reuse sxfer */
1.1  kiyohara 	xpt_setup_ccb(&sxfer->ccb_h, sdev->path, SCAN_PRI);
1.1  kiyohara 	sxfer->ccb_h.ccb_sdev_ptr = sdev;
1.1  kiyohara 	xpt_action(sxfer);
1.1  kiyohara 	xpt_release_devq(sdev->path, sdev->freeze, TRUE);
1.1  kiyohara 	sdev->freeze = 1;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_cam_scan_target(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target = (struct sbp_target *)arg;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	sbp_scsi_xfer *sxfer;
1.1  kiyohara
1.1  kiyohara 	sdev = sbp_next_dev(target, 0);
1.1  kiyohara 	if (sdev == NULL) {
1.1  kiyohara 		printf("sbp_cam_scan_target: nothing to do for target%d\n",
1.1  kiyohara 							target->target_id);
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_cam_scan_target\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	sxfer = malloc(sizeof(sbp_scsi_xfer), M_SBP, M_NOWAIT | M_ZERO);
1.1  kiyohara 	if (sxfer == NULL) {
1.1  kiyohara 		printf("sbp_cam_scan_target: malloc failed\n");
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	xpt_setup_ccb(&sxfer->ccb_h, sdev->path, SCAN_PRI);
1.1  kiyohara 	sxfer->ccb_h.func_code = XPT_SCAN_LUN;
1.1  kiyohara 	sxfer->ccb_h.cbfcnp = sbp_cam_scan_lun;
1.1  kiyohara 	sxfer->ccb_h.flags |= CAM_DEV_QFREEZE;
1.1  kiyohara 	sxfer->crcn.flags = CAM_FLAG_NONE;
1.1  kiyohara 	sxfer->ccb_h.ccb_sdev_ptr = sdev;
1.1  kiyohara
1.1  kiyohara 	/* The scan is in progress now. */
1.1  kiyohara 	xpt_action(sxfer);
1.1  kiyohara 	xpt_release_devq(sdev->path, sdev->freeze, TRUE);
1.1  kiyohara 	sdev->freeze = 1;
1.1  kiyohara }
1.1  kiyohara
1.4     perry static inline void
1.1  kiyohara sbp_scan_dev(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	sdev->status = SBP_DEV_PROBE;
1.1  kiyohara 	callout_reset(&sdev->target->scan_callout, scan_delay * hz / 1000,
1.1  kiyohara 			sbp_cam_scan_target, (void *)sdev->target);
1.1  kiyohara }
1.1  kiyohara #else
1.1  kiyohara static void
1.1  kiyohara fw_kthread_create0(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp = (struct sbp_softc *)arg;
1.1  kiyohara
1.1  kiyohara 	/* create thread */
1.1  kiyohara 	if (kthread_create1(sbp_scsipi_scan_target,
1.1  kiyohara 	    &sbp->target, &sbp->proc, "sbp%d_attach", sbp->fd.dev->dv_unit)) {
1.1  kiyohara
1.1  kiyohara 		device_printf(sbp->fd.dev, "unable to create thread");
1.1  kiyohara 		panic("fw_kthread_create");
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_scsipi_scan_target(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target = (struct sbp_target *)arg;
1.1  kiyohara 	struct sbp_softc *sbp = target->sbp;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	struct scsipi_channel *chan = &sbp->sc_channel;
1.1  kiyohara 	struct scsibus_softc *sc_bus = (struct scsibus_softc *)sbp->sc_bus;
1.1  kiyohara 	int lun, yet;
1.1  kiyohara
1.1  kiyohara 	do {
1.1  kiyohara 		tsleep(target, PWAIT|PCATCH, "-", 0);
1.1  kiyohara 		yet = 0;
1.1  kiyohara
1.1  kiyohara 		for (lun = 0; lun < target->num_lun; lun ++) {
1.1  kiyohara 			sdev = target->luns[lun];
1.1  kiyohara 			if (sdev == NULL)
1.1  kiyohara 				continue;
1.1  kiyohara 			if (sdev->status != SBP_DEV_PROBE) {
1.1  kiyohara 				yet ++;
1.1  kiyohara 				continue;
1.1  kiyohara 			}
1.1  kiyohara
1.1  kiyohara 			if (sdev->periph == NULL) {
1.1  kiyohara 				if (chan->chan_nluns < target->num_lun)
1.1  kiyohara 					chan->chan_nluns = target->num_lun;
1.1  kiyohara
1.1  kiyohara 				scsi_probe_bus(sc_bus,
1.1  kiyohara 				    target->target_id, sdev->lun_id);
1.1  kiyohara 				sdev->periph = scsipi_lookup_periph(
1.1  kiyohara 				    chan, target->target_id, lun);
1.1  kiyohara 			}
1.1  kiyohara 			sdev->status = SBP_DEV_ATTACHED;
1.1  kiyohara 		}
1.1  kiyohara 	} while (yet > 0);
1.1  kiyohara
1.1  kiyohara 	sbp->proc = NULL;
1.1  kiyohara 	kthread_exit(0);
1.1  kiyohara }
1.1  kiyohara
1.4     perry static inline void
1.1  kiyohara sbp_scan_dev(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	sdev->status = SBP_DEV_PROBE;
1.1  kiyohara 	wakeup(sdev->target);
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_do_attach(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara 	target = sdev->target;
1.1  kiyohara 	sbp = target->sbp;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_do_attach\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	sbp_xfer_free(xfer);
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	if (sdev->path == NULL)
1.1  kiyohara 		xpt_create_path(&sdev->path, xpt_periph,
1.1  kiyohara 			cam_sim_path(target->sbp->sim),
1.1  kiyohara 			target->target_id, sdev->lun_id);
1.1  kiyohara
1.1  kiyohara 	/*
1.1  kiyohara 	 * Let CAM scan the bus if we are in the boot process.
1.1  kiyohara 	 * XXX xpt_scan_bus cannot detect LUN larger than 0
1.1  kiyohara 	 * if LUN 0 doesn't exists.
1.1  kiyohara 	 */
1.1  kiyohara 	if (sbp_cold > 0) {
1.1  kiyohara 		sdev->status = SBP_DEV_ATTACHED;
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 	sbp_scan_dev(sdev);
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_agent_reset_callback(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("%s\n", __func__);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if (xfer->resp != 0) {
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("%s: resp=%d\n", __func__, xfer->resp);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	sbp_xfer_free(xfer);
1.1  kiyohara 	if (SBP_DEVICE(sdev)) {
1.1  kiyohara 		SBP_DEVICE_THAW(sdev, sdev->freeze);
1.1  kiyohara 		sdev->freeze = 0;
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_agent_reset(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_agent_reset\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	xfer = sbp_write_cmd(sdev, FWTCODE_WREQQ, 0x04);
1.1  kiyohara 	if (xfer == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->status == SBP_DEV_ATTACHED || sdev->status == SBP_DEV_PROBE)
1.1  kiyohara 		xfer->hand = sbp_agent_reset_callback;
1.1  kiyohara 	else
1.1  kiyohara 		xfer->hand = sbp_do_attach;
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqq.data = htonl(0xf);
1.1  kiyohara 	fw_asyreq(xfer->fc, -1, xfer);
1.1  kiyohara 	sbp_abort_all_ocbs(sdev, XS_BDR_SENT);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_busy_timeout_callback(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_busy_timeout_callback\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	sbp_xfer_free(xfer);
1.1  kiyohara 	sbp_agent_reset(sdev);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_busy_timeout(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_busy_timeout\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	xfer = sbp_write_cmd(sdev, FWTCODE_WREQQ, 0);
1.1  kiyohara
1.1  kiyohara 	xfer->hand = sbp_busy_timeout_callback;
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqq.dest_hi = 0xffff;
1.1  kiyohara 	fp->mode.wreqq.dest_lo = 0xf0000000 | BUSY_TIMEOUT;
1.1  kiyohara 	fp->mode.wreqq.data = htonl((1 << (13+12)) | 0xf);
1.1  kiyohara 	fw_asyreq(xfer->fc, -1, xfer);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_orb_pointer_callback(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("%s\n", __func__);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if (xfer->resp != 0) {
1.1  kiyohara 		/* XXX */
1.1  kiyohara 		printf("%s: xfer->resp = %d\n", __func__, xfer->resp);
1.1  kiyohara 	}
1.1  kiyohara 	sbp_xfer_free(xfer);
1.1  kiyohara 	sdev->flags &= ~ORB_POINTER_ACTIVE;
1.1  kiyohara
1.1  kiyohara 	if ((sdev->flags & ORB_POINTER_NEED) != 0) {
1.1  kiyohara 		struct sbp_ocb *ocb;
1.1  kiyohara
1.1  kiyohara 		sdev->flags &= ~ORB_POINTER_NEED;
1.1  kiyohara 		ocb = STAILQ_FIRST(&sdev->ocbs);
1.1  kiyohara 		if (ocb != NULL)
1.1  kiyohara 			sbp_orb_pointer(sdev, ocb);
1.1  kiyohara 	}
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_orb_pointer(struct sbp_dev *sdev, struct sbp_ocb *ocb)
1.1  kiyohara {
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("%s: 0x%08x\n", __func__, (uint32_t)ocb->bus_addr);
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	if ((sdev->flags & ORB_POINTER_ACTIVE) != 0) {
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 		printf("%s: orb pointer active\n", __func__);
1.1  kiyohara END_DEBUG
1.1  kiyohara 		sdev->flags |= ORB_POINTER_NEED;
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	sdev->flags |= ORB_POINTER_ACTIVE;
1.1  kiyohara 	xfer = sbp_write_cmd(sdev, FWTCODE_WREQB, 0x08);
1.1  kiyohara 	if (xfer == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	xfer->hand = sbp_orb_pointer_callback;
1.1  kiyohara
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqb.len = 8;
1.1  kiyohara 	fp->mode.wreqb.extcode = 0;
1.1  kiyohara 	xfer->send.payload[0] =
1.1  kiyohara 		htonl(((sdev->target->sbp->fd.fc->nodeid | FWLOCALBUS )<< 16));
1.1  kiyohara 	xfer->send.payload[1] = htonl((uint32_t)ocb->bus_addr);
1.1  kiyohara
1.1  kiyohara 	if(fw_asyreq(xfer->fc, -1, xfer) != 0){
1.1  kiyohara 			sbp_xfer_free(xfer);
1.1  kiyohara 			SCSI_XFER_ERROR(ocb->sxfer) = XS_REQ_INVALID;
1.1  kiyohara 			SCSI_TRANSFER_DONE(ocb->sxfer);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_doorbell_callback(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	sdev = (struct sbp_dev *)xfer->sc;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_doorbell_callback\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if (xfer->resp != 0) {
1.1  kiyohara 		/* XXX */
1.1  kiyohara 		printf("%s: xfer->resp = %d\n", __func__, xfer->resp);
1.1  kiyohara 	}
1.1  kiyohara 	sbp_xfer_free(xfer);
1.1  kiyohara 	sdev->flags &= ~ORB_DOORBELL_ACTIVE;
1.1  kiyohara 	if ((sdev->flags & ORB_DOORBELL_NEED) != 0) {
1.1  kiyohara 		sdev->flags &= ~ORB_DOORBELL_NEED;
1.1  kiyohara 		sbp_doorbell(sdev);
1.1  kiyohara 	}
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_doorbell(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_doorbell\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	if ((sdev->flags & ORB_DOORBELL_ACTIVE) != 0) {
1.1  kiyohara 		sdev->flags |= ORB_DOORBELL_NEED;
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	sdev->flags |= ORB_DOORBELL_ACTIVE;
1.1  kiyohara 	xfer = sbp_write_cmd(sdev, FWTCODE_WREQQ, 0x10);
1.1  kiyohara 	if (xfer == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	xfer->hand = sbp_doorbell_callback;
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqq.data = htonl(0xf);
1.1  kiyohara 	fw_asyreq(xfer->fc, -1, xfer);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static struct fw_xfer *
1.1  kiyohara sbp_write_cmd(struct sbp_dev *sdev, int tcode, int offset)
1.1  kiyohara {
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	int s, new = 0;
1.1  kiyohara
1.1  kiyohara 	target = sdev->target;
1.1  kiyohara 	s = splfw();
1.1  kiyohara 	xfer = STAILQ_FIRST(&target->xferlist);
1.1  kiyohara 	if (xfer == NULL) {
1.1  kiyohara 		if (target->n_xfer > 5 /* XXX */) {
1.1  kiyohara 			printf("sbp: no more xfer for this target\n");
1.1  kiyohara 			splx(s);
1.1  kiyohara 			return(NULL);
1.1  kiyohara 		}
1.1  kiyohara 		xfer = fw_xfer_alloc_buf(M_SBP, 8, 0);
1.1  kiyohara 		if(xfer == NULL){
1.1  kiyohara 			printf("sbp: fw_xfer_alloc_buf failed\n");
1.1  kiyohara 			splx(s);
1.1  kiyohara 			return NULL;
1.1  kiyohara 		}
1.1  kiyohara 		target->n_xfer ++;
1.1  kiyohara 		if (debug)
1.1  kiyohara 			printf("sbp: alloc %d xfer\n", target->n_xfer);
1.1  kiyohara 		new = 1;
1.1  kiyohara 	} else {
1.1  kiyohara 		STAILQ_REMOVE_HEAD(&target->xferlist, link);
1.1  kiyohara 	}
1.1  kiyohara 	splx(s);
1.1  kiyohara
1.1  kiyohara 	microtime(&xfer->tv);
1.1  kiyohara
1.1  kiyohara 	if (new) {
1.1  kiyohara 		xfer->recv.pay_len = 0;
1.1  kiyohara 		xfer->send.spd = min(sdev->target->fwdev->speed, max_speed);
1.1  kiyohara 		xfer->fc = sdev->target->sbp->fd.fc;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if (tcode == FWTCODE_WREQB)
1.1  kiyohara 		xfer->send.pay_len = 8;
1.1  kiyohara 	else
1.1  kiyohara 		xfer->send.pay_len = 0;
1.1  kiyohara
1.1  kiyohara 	xfer->sc = (caddr_t)sdev;
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqq.dest_hi = sdev->login->cmd_hi;
1.1  kiyohara 	fp->mode.wreqq.dest_lo = sdev->login->cmd_lo + offset;
1.1  kiyohara 	fp->mode.wreqq.tlrt = 0;
1.1  kiyohara 	fp->mode.wreqq.tcode = tcode;
1.1  kiyohara 	fp->mode.wreqq.pri = 0;
1.1  kiyohara 	fp->mode.wreqq.dst = FWLOCALBUS | sdev->target->fwdev->dst;
1.1  kiyohara
1.1  kiyohara 	return xfer;
1.1  kiyohara
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_mgm_orb(struct sbp_dev *sdev, int func, struct sbp_ocb *aocb)
1.1  kiyohara {
1.1  kiyohara 	struct fw_xfer *xfer;
1.1  kiyohara 	struct fw_pkt *fp;
1.1  kiyohara 	struct sbp_ocb *ocb;
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	int s, nid, dv_unit;
1.1  kiyohara
1.1  kiyohara 	target = sdev->target;
1.1  kiyohara 	nid = target->sbp->fd.fc->nodeid | FWLOCALBUS;
1.1  kiyohara 	dv_unit = device_get_unit(target->sbp->fd.dev);
1.1  kiyohara
1.1  kiyohara 	s = splfw();
1.1  kiyohara 	if (func == ORB_FUN_RUNQUEUE) {
1.1  kiyohara 		ocb = STAILQ_FIRST(&target->mgm_ocb_queue);
1.1  kiyohara 		if (target->mgm_ocb_cur != NULL || ocb == NULL) {
1.1  kiyohara 			splx(s);
1.1  kiyohara 			return;
1.1  kiyohara 		}
1.1  kiyohara 		STAILQ_REMOVE_HEAD(&target->mgm_ocb_queue, ocb);
1.1  kiyohara 		goto start;
1.1  kiyohara 	}
1.1  kiyohara 	if ((ocb = sbp_get_ocb(sdev)) == NULL) {
1.1  kiyohara 		splx(s);
1.1  kiyohara 		/* XXX */
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	ocb->flags = OCB_ACT_MGM;
1.1  kiyohara 	ocb->sdev = sdev;
1.1  kiyohara
1.1  kiyohara 	bzero((void *)ocb->orb, sizeof(ocb->orb));
1.1  kiyohara 	ocb->orb[6] = htonl((nid << 16) | SBP_BIND_HI);
1.1  kiyohara 	ocb->orb[7] = htonl(SBP_DEV2ADDR(dv_unit, sdev->lun_id));
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("%s\n", orb_fun_name[(func>>16)&0xf]);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	switch (func) {
1.1  kiyohara 	case ORB_FUN_LGI:
1.1  kiyohara 		ocb->orb[0] = ocb->orb[1] = 0; /* password */
1.1  kiyohara 		ocb->orb[2] = htonl(nid << 16);
1.1  kiyohara 		ocb->orb[3] = htonl(sdev->dma.bus_addr);
1.1  kiyohara 		ocb->orb[4] = htonl(ORB_NOTIFY | sdev->lun_id);
1.1  kiyohara 		if (ex_login)
1.1  kiyohara 			ocb->orb[4] |= htonl(ORB_EXV);
1.1  kiyohara 		ocb->orb[5] = htonl(SBP_LOGIN_SIZE);
1.1  kiyohara 		break;
1.1  kiyohara 	case ORB_FUN_ATA:
1.1  kiyohara 		ocb->orb[0] = htonl((0 << 16) | 0);
1.1  kiyohara 		ocb->orb[1] = htonl(aocb->bus_addr & 0xffffffff);
1.1  kiyohara 		/* fall through */
1.1  kiyohara 	case ORB_FUN_RCN:
1.1  kiyohara 	case ORB_FUN_LGO:
1.1  kiyohara 	case ORB_FUN_LUR:
1.1  kiyohara 	case ORB_FUN_RST:
1.1  kiyohara 	case ORB_FUN_ATS:
1.1  kiyohara 		ocb->orb[4] = htonl(ORB_NOTIFY | func | sdev->login->id);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if (target->mgm_ocb_cur != NULL) {
1.1  kiyohara 		/* there is a standing ORB */
1.1  kiyohara 		STAILQ_INSERT_TAIL(&sdev->target->mgm_ocb_queue, ocb, ocb);
1.1  kiyohara 		splx(s);
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara start:
1.1  kiyohara 	target->mgm_ocb_cur = ocb;
1.1  kiyohara 	splx(s);
1.1  kiyohara
1.1  kiyohara 	callout_reset(&target->mgm_ocb_timeout, 5*hz,
1.1  kiyohara 				sbp_mgm_timeout, (caddr_t)ocb);
1.1  kiyohara 	xfer = sbp_write_cmd(sdev, FWTCODE_WREQB, 0);
1.1  kiyohara 	if(xfer == NULL){
1.1  kiyohara 		return;
1.1  kiyohara 	}
1.1  kiyohara 	xfer->hand = sbp_mgm_callback;
1.1  kiyohara
1.1  kiyohara 	fp = &xfer->send.hdr;
1.1  kiyohara 	fp->mode.wreqb.dest_hi = sdev->target->mgm_hi;
1.1  kiyohara 	fp->mode.wreqb.dest_lo = sdev->target->mgm_lo;
1.1  kiyohara 	fp->mode.wreqb.len = 8;
1.1  kiyohara 	fp->mode.wreqb.extcode = 0;
1.1  kiyohara 	xfer->send.payload[0] = htonl(nid << 16);
1.1  kiyohara 	xfer->send.payload[1] = htonl(ocb->bus_addr & 0xffffffff);
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("mgm orb: %08x\n", (uint32_t)ocb->bus_addr);
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	/* cache writeback & invalidate(required ORB_FUN_LGI func) */
1.1  kiyohara 	/* when abort_ocb, should sync POST ope ? */
1.1  kiyohara 	fwdma_sync(&sdev->dma, BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
1.1  kiyohara 	fw_asyreq(xfer->fc, -1, xfer);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_print_scsi_cmd(struct sbp_ocb *ocb)
1.1  kiyohara {
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	struct ccb_scsiio *csio;
1.1  kiyohara
1.1  kiyohara 	csio = &ocb->sxfer->csio;
1.1  kiyohara #endif
1.1  kiyohara 	printf("%s:%d:%d XPT_SCSI_IO: "
1.1  kiyohara 		"cmd: %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x"
1.1  kiyohara 		", flags: 0x%02x, "
1.1  kiyohara 		"%db cmd/%db data/%db sense\n",
1.1  kiyohara 		device_get_nameunit(ocb->sdev->target->sbp->fd.dev),
1.1  kiyohara 		SCSI_XFER_TARGET(ocb->sxfer), SCSI_XFER_LUN(ocb->sxfer),
1.1  kiyohara 		SCSI_XFER_10BCMD_DUMP(ocb->sxfer),
1.1  kiyohara 		SCSI_XFER_DIR(ocb->sxfer),
1.1  kiyohara 		SCSI_XFER_CMDLEN(ocb->sxfer), SCSI_XFER_DATALEN(ocb->sxfer),
1.1  kiyohara 		SCSI_XFER_SENSELEN(ocb->sxfer));
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_scsi_status(struct sbp_status *sbp_status, struct sbp_ocb *ocb)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_cmd_status *sbp_cmd_status;
1.1  kiyohara 	scsi3_sense_data_t sense =
1.1  kiyohara 	    (scsi3_sense_data_t)SCSI_SENSE_DATA(ocb->sxfer);
1.1  kiyohara
1.1  kiyohara 	sbp_cmd_status = (struct sbp_cmd_status *)sbp_status->data;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_print_scsi_cmd(ocb);
1.1  kiyohara 	/* XXX need decode status */
1.1  kiyohara 	sbp_show_sdev_info(ocb->sdev, 2);
1.1  kiyohara 	printf("SCSI status %x sfmt %x valid %x key %x code %x qlfr %x len %d\n",
1.1  kiyohara 		sbp_cmd_status->status,
1.1  kiyohara 		sbp_cmd_status->sfmt,
1.1  kiyohara 		sbp_cmd_status->valid,
1.1  kiyohara 		sbp_cmd_status->s_key,
1.1  kiyohara 		sbp_cmd_status->s_code,
1.1  kiyohara 		sbp_cmd_status->s_qlfr,
1.1  kiyohara 		sbp_status->len
1.1  kiyohara 	);
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	switch (sbp_cmd_status->status) {
1.1  kiyohara 	case SCSI_STATUS_CHECK_COND:
1.1  kiyohara 	case SCSI_STATUS_BUSY:
1.1  kiyohara 	case SCSI_STATUS_CMD_TERMINATED:
1.1  kiyohara 		if(sbp_cmd_status->sfmt == SBP_SFMT_CURR){
1.1  kiyohara 			sense->response_code = SSD_CURRENT_ERROR;
1.1  kiyohara 		}else{
1.1  kiyohara 			sense->response_code = SSD_DEFERRED_ERROR;
1.1  kiyohara 		}
1.1  kiyohara 		if(sbp_cmd_status->valid)
1.1  kiyohara 			sense->response_code |= SSD_RESPONSE_CODE_VALID;
1.1  kiyohara 		sense->flags = sbp_cmd_status->s_key;
1.1  kiyohara 		if(sbp_cmd_status->mark)
1.1  kiyohara 			sense->flags |= SSD_FILEMARK;
1.1  kiyohara 		if(sbp_cmd_status->eom)
1.1  kiyohara 			sense->flags |= SSD_EOM;
1.1  kiyohara 		if(sbp_cmd_status->ill_len)
1.1  kiyohara 			sense->flags |= SSD_ILI;
1.1  kiyohara
1.5       wiz 		bcopy(&sbp_cmd_status->info, &sense->information[0], 4);
1.1  kiyohara
1.1  kiyohara 		if (sbp_status->len <= 1)
1.1  kiyohara 			/* XXX not scsi status. shouldn't be happened */
1.1  kiyohara 			sense->asl = 0;
1.1  kiyohara 		else if (sbp_status->len <= 4)
1.1  kiyohara 			/* add_sense_code(_qual), info, cmd_spec_info */
1.1  kiyohara 			sense->asl = 6;
1.1  kiyohara 		else
1.1  kiyohara 			/* fru, sense_key_spec */
1.1  kiyohara 			sense->asl = 10;
1.1  kiyohara
1.1  kiyohara 		bcopy(&sbp_cmd_status->cdb, &sense->csi[0], 4);
1.1  kiyohara
1.1  kiyohara 		sense->asc = sbp_cmd_status->s_code;
1.1  kiyohara 		sense->ascq = sbp_cmd_status->s_qlfr;
1.1  kiyohara 		sense->fruc = sbp_cmd_status->fru;
1.1  kiyohara
1.1  kiyohara 		bcopy(&sbp_cmd_status->s_keydep[0], &sense->sks[0], 3);
1.1  kiyohara 		SCSI_XFER_ERROR(ocb->sxfer) = XS_SENSE;
1.1  kiyohara 		SCSI_XFER_STATUS(ocb->sxfer) = sbp_cmd_status->status;
1.1  kiyohara /*
1.1  kiyohara {
1.1  kiyohara 		uint8_t j, *tmp;
1.1  kiyohara 		tmp = sense;
1.1  kiyohara 		for( j = 0 ; j < 32 ; j+=8){
1.1  kiyohara 			printf("sense %02x%02x %02x%02x %02x%02x %02x%02x\n",
1.1  kiyohara 				tmp[j], tmp[j+1], tmp[j+2], tmp[j+3],
1.1  kiyohara 				tmp[j+4], tmp[j+5], tmp[j+6], tmp[j+7]);
1.1  kiyohara 		}
1.1  kiyohara
1.1  kiyohara }
1.1  kiyohara */
1.1  kiyohara 		break;
1.1  kiyohara 	default:
1.1  kiyohara 		sbp_show_sdev_info(ocb->sdev, 2);
1.1  kiyohara 		printf("sbp_scsi_status: unknown scsi status 0x%x\n",
1.1  kiyohara 						sbp_cmd_status->status);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_fix_inq_data(struct sbp_ocb *ocb)
1.1  kiyohara {
1.1  kiyohara 	sbp_scsi_xfer *sxfer = ocb->sxfer;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	scsi3_inquiry_data_t inq =
1.1  kiyohara 	    (scsi3_inquiry_data_t)SCSI_INQUIRY_DATA(sxfer);
1.1  kiyohara 	sdev = ocb->sdev;
1.1  kiyohara
1.1  kiyohara 	if (SCSI_XFER_EVPD(sxfer))
1.1  kiyohara 		return;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("sbp_fix_inq_data\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	switch (inq->device & SID_TYPE) {
1.1  kiyohara 	case T_DIRECT:
1.1  kiyohara #if 0
1.1  kiyohara 		/*
1.1  kiyohara 		 * XXX Convert Direct Access device to RBC.
1.1  kiyohara 		 * I've never seen FireWire DA devices which support READ_6.
1.1  kiyohara 		 */
1.1  kiyohara 		if ((inq->device & SID_TYPE) == T_DIRECT)
1.1  kiyohara 			inq->device |= T_RBC; /*  T_DIRECT == 0 */
1.1  kiyohara #endif
1.1  kiyohara 		/* fall through */
1.1  kiyohara 	case T_RBC:
1.1  kiyohara 		/*
1.1  kiyohara 		 * Override vendor/product/revision information.
1.1  kiyohara 		 * Some devices sometimes return strange strings.
1.1  kiyohara 		 */
1.1  kiyohara #if 1
1.1  kiyohara 		bcopy(sdev->vendor, inq->vendor, sizeof(inq->vendor));
1.1  kiyohara 		bcopy(sdev->product, inq->product, sizeof(inq->product));
1.1  kiyohara 		bcopy(sdev->revision+2, inq->revision, sizeof(inq->revision));
1.1  kiyohara #endif
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara 	/*
1.1  kiyohara 	 * Force to enable/disable tagged queuing.
1.1  kiyohara 	 * XXX CAM also checks SCP_QUEUE_DQUE flag in the control mode page.
1.1  kiyohara 	 */
1.1  kiyohara 	if (sbp_tags > 0)
1.1  kiyohara 		inq->flags[1] |= SID_CmdQue;
1.1  kiyohara 	else if (sbp_tags < 0)
1.1  kiyohara 		inq->flags[1] &= ~SID_CmdQue;
1.1  kiyohara
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_recv1(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	struct fw_pkt *rfp;
1.1  kiyohara #if NEED_RESPONSE
1.1  kiyohara 	struct fw_pkt *sfp;
1.1  kiyohara #endif
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	struct sbp_ocb *ocb;
1.1  kiyohara 	struct sbp_login_res *login_res = NULL;
1.1  kiyohara 	struct sbp_status *sbp_status;
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	int	orb_fun, status_valid0, status_valid, l, reset_agent = 0;
1.1  kiyohara 	uint32_t addr;
1.1  kiyohara /*
1.1  kiyohara 	uint32_t *ld;
1.1  kiyohara 	ld = xfer->recv.buf;
1.1  kiyohara printf("sbp %x %d %d %08x %08x %08x %08x\n",
1.1  kiyohara 			xfer->resp, xfer->recv.len, xfer->recv.off, ntohl(ld[0]), ntohl(ld[1]), ntohl(ld[2]), ntohl(ld[3]));
1.1  kiyohara printf("sbp %08x %08x %08x %08x\n", ntohl(ld[4]), ntohl(ld[5]), ntohl(ld[6]), ntohl(ld[7]));
1.1  kiyohara printf("sbp %08x %08x %08x %08x\n", ntohl(ld[8]), ntohl(ld[9]), ntohl(ld[10]), ntohl(ld[11]));
1.1  kiyohara */
1.1  kiyohara 	sbp = (struct sbp_softc *)xfer->sc;
1.1  kiyohara 	if (xfer->resp != 0){
1.1  kiyohara 		printf("sbp_recv: xfer->resp = %d\n", xfer->resp);
1.1  kiyohara 		goto done0;
1.1  kiyohara 	}
1.1  kiyohara 	if (xfer->recv.payload == NULL){
1.1  kiyohara 		printf("sbp_recv: xfer->recv.payload == NULL\n");
1.1  kiyohara 		goto done0;
1.1  kiyohara 	}
1.1  kiyohara 	rfp = &xfer->recv.hdr;
1.1  kiyohara 	if(rfp->mode.wreqb.tcode != FWTCODE_WREQB){
1.1  kiyohara 		printf("sbp_recv: tcode = %d\n", rfp->mode.wreqb.tcode);
1.1  kiyohara 		goto done0;
1.1  kiyohara 	}
1.1  kiyohara 	sbp_status = (struct sbp_status *)xfer->recv.payload;
1.1  kiyohara 	addr = rfp->mode.wreqb.dest_lo;
1.1  kiyohara SBP_DEBUG(2)
1.1  kiyohara 	printf("received address 0x%x\n", addr);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	target = &sbp->target;
1.1  kiyohara 	l = SBP_ADDR2LUN(addr);
1.1  kiyohara 	if (l >= target->num_lun || target->luns[l] == NULL) {
1.1  kiyohara 		device_printf(sbp->fd.dev,
1.1  kiyohara 			"sbp_recv1: invalid lun %d (target=%d)\n",
1.1  kiyohara 			l, target->target_id);
1.1  kiyohara 		goto done0;
1.1  kiyohara 	}
1.1  kiyohara 	sdev = target->luns[l];
1.1  kiyohara
1.1  kiyohara 	fwdma_sync(&sdev->dma, BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
1.1  kiyohara
1.1  kiyohara 	ocb = NULL;
1.1  kiyohara 	switch (sbp_status->src) {
1.1  kiyohara 	case SRC_NEXT_EXISTS:
1.1  kiyohara 	case SRC_NO_NEXT:
1.1  kiyohara 		/* check mgm_ocb_cur first */
1.1  kiyohara 		ocb  = target->mgm_ocb_cur;
1.1  kiyohara 		if (ocb != NULL) {
1.1  kiyohara 			if (OCB_MATCH(ocb, sbp_status)) {
1.1  kiyohara 				callout_stop(&target->mgm_ocb_timeout);
1.1  kiyohara 				target->mgm_ocb_cur = NULL;
1.1  kiyohara 				break;
1.1  kiyohara 			}
1.1  kiyohara 		}
1.1  kiyohara 		ocb = sbp_dequeue_ocb(sdev, sbp_status);
1.1  kiyohara 		if (ocb == NULL) {
1.1  kiyohara 			sbp_show_sdev_info(sdev, 2);
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 			printf("No ocb(%lx) on the queue\n",
1.1  kiyohara #else
1.1  kiyohara 			printf("No ocb(%x) on the queue\n",
1.1  kiyohara #endif
1.1  kiyohara 					ntohl(sbp_status->orb_lo));
1.1  kiyohara 		}
1.1  kiyohara 		break;
1.1  kiyohara 	case SRC_UNSOL:
1.1  kiyohara 		/* unsolicit */
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("unsolicit status received\n");
1.1  kiyohara 		break;
1.1  kiyohara 	default:
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("unknown sbp_status->src\n");
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	status_valid0 = (sbp_status->src < 2
1.1  kiyohara 			&& sbp_status->resp == SBP_REQ_CMP
1.1  kiyohara 			&& sbp_status->dead == 0);
1.1  kiyohara 	status_valid = (status_valid0 && sbp_status->status == 0);
1.1  kiyohara
1.1  kiyohara 	if (!status_valid0 || debug > 2){
1.1  kiyohara 		int status;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("ORB status src:%x resp:%x dead:%x"
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 				" len:%x stat:%x orb:%x%08lx\n",
1.1  kiyohara #else
1.1  kiyohara 				" len:%x stat:%x orb:%x%08x\n",
1.1  kiyohara #endif
1.1  kiyohara 			sbp_status->src, sbp_status->resp, sbp_status->dead,
1.1  kiyohara 			sbp_status->len, sbp_status->status,
1.1  kiyohara 			ntohs(sbp_status->orb_hi), ntohl(sbp_status->orb_lo));
1.1  kiyohara END_DEBUG
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		status = sbp_status->status;
1.1  kiyohara 		switch(sbp_status->resp) {
1.1  kiyohara 		case SBP_REQ_CMP:
1.1  kiyohara 			if (status > MAX_ORB_STATUS0)
1.1  kiyohara 				printf("%s\n", orb_status0[MAX_ORB_STATUS0]);
1.1  kiyohara 			else
1.1  kiyohara 				printf("%s\n", orb_status0[status]);
1.1  kiyohara 			break;
1.1  kiyohara 		case SBP_TRANS_FAIL:
1.1  kiyohara 			printf("Obj: %s, Error: %s\n",
1.1  kiyohara 				orb_status1_object[(status>>6) & 3],
1.1  kiyohara 				orb_status1_serial_bus_error[status & 0xf]);
1.1  kiyohara 			break;
1.1  kiyohara 		case SBP_ILLE_REQ:
1.1  kiyohara 			printf("Illegal request\n");
1.1  kiyohara 			break;
1.1  kiyohara 		case SBP_VEND_DEP:
1.1  kiyohara 			printf("Vendor dependent\n");
1.1  kiyohara 			break;
1.1  kiyohara 		default:
1.1  kiyohara 			printf("unknown respose code %d\n", sbp_status->resp);
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	/* we have to reset the fetch agent if it's dead */
1.1  kiyohara 	if (sbp_status->dead) {
1.1  kiyohara 		if (SBP_DEVICE(sdev) != NULL) {
1.1  kiyohara 			SBP_DEVICE_FREEZE(sdev, 1);
1.1  kiyohara 			sdev->freeze ++;
1.1  kiyohara 		}
1.1  kiyohara 		reset_agent = 1;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if (ocb == NULL)
1.1  kiyohara 		goto done;
1.1  kiyohara
1.1  kiyohara 	switch(ntohl(ocb->orb[4]) & ORB_FMT_MSK){
1.1  kiyohara 	case ORB_FMT_NOP:
1.1  kiyohara 		break;
1.1  kiyohara 	case ORB_FMT_VED:
1.1  kiyohara 		break;
1.1  kiyohara 	case ORB_FMT_STD:
1.1  kiyohara 		switch(ocb->flags) {
1.1  kiyohara 		case OCB_ACT_MGM:
1.1  kiyohara 			orb_fun = ntohl(ocb->orb[4]) & ORB_FUN_MSK;
1.1  kiyohara 			reset_agent = 0;
1.1  kiyohara 			switch(orb_fun) {
1.1  kiyohara 			case ORB_FUN_LGI:
1.1  kiyohara 				login_res = sdev->login;
1.1  kiyohara 				login_res->len = ntohs(login_res->len);
1.1  kiyohara 				login_res->id = ntohs(login_res->id);
1.1  kiyohara 				login_res->cmd_hi = ntohs(login_res->cmd_hi);
1.1  kiyohara 				login_res->cmd_lo = ntohl(login_res->cmd_lo);
1.1  kiyohara 				if (status_valid) {
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara sbp_show_sdev_info(sdev, 2);
1.1  kiyohara printf("login: len %d, ID %d, cmd %08x%08x, recon_hold %d\n", login_res->len, login_res->id, login_res->cmd_hi, login_res->cmd_lo, ntohs(login_res->recon_hold));
1.1  kiyohara END_DEBUG
1.1  kiyohara 					sbp_busy_timeout(sdev);
1.1  kiyohara 				} else {
1.1  kiyohara 					/* forgot logout? */
1.1  kiyohara 					sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 					printf("login failed\n");
1.1  kiyohara 					sdev->status = SBP_DEV_RESET;
1.1  kiyohara 				}
1.1  kiyohara 				break;
1.1  kiyohara 			case ORB_FUN_RCN:
1.1  kiyohara 				login_res = sdev->login;
1.1  kiyohara 				if (status_valid) {
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara sbp_show_sdev_info(sdev, 2);
1.1  kiyohara printf("reconnect: len %d, ID %d, cmd %08x%08x\n", login_res->len, login_res->id, login_res->cmd_hi, login_res->cmd_lo);
1.1  kiyohara END_DEBUG
1.1  kiyohara #if 1
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 					if (sdev->status == SBP_DEV_ATTACHED)
1.1  kiyohara 						sbp_scan_dev(sdev);
1.1  kiyohara 					else
1.1  kiyohara #endif
1.1  kiyohara 						sbp_agent_reset(sdev);
1.1  kiyohara #else
1.1  kiyohara 					sdev->status = SBP_DEV_ATTACHED;
1.1  kiyohara 					sbp_mgm_orb(sdev, ORB_FUN_ATS, NULL);
1.1  kiyohara #endif
1.1  kiyohara 				} else {
1.1  kiyohara 					/* reconnection hold time exceed? */
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 					sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 					printf("reconnect failed\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 					sbp_login(sdev);
1.1  kiyohara 				}
1.1  kiyohara 				break;
1.1  kiyohara 			case ORB_FUN_LGO:
1.1  kiyohara 				sdev->status = SBP_DEV_RESET;
1.1  kiyohara 				break;
1.1  kiyohara 			case ORB_FUN_RST:
1.1  kiyohara 				sbp_busy_timeout(sdev);
1.1  kiyohara 				break;
1.1  kiyohara 			case ORB_FUN_LUR:
1.1  kiyohara 			case ORB_FUN_ATA:
1.1  kiyohara 			case ORB_FUN_ATS:
1.1  kiyohara 				sbp_agent_reset(sdev);
1.1  kiyohara 				break;
1.1  kiyohara 			default:
1.1  kiyohara 				sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 				printf("unknown function %d\n", orb_fun);
1.1  kiyohara 				break;
1.1  kiyohara 			}
1.1  kiyohara 			sbp_mgm_orb(sdev, ORB_FUN_RUNQUEUE, NULL);
1.1  kiyohara 			break;
1.1  kiyohara 		case OCB_ACT_CMD:
1.1  kiyohara 			sdev->timeout = 0;
1.1  kiyohara 			if(ocb->sxfer != NULL){
1.1  kiyohara 				sbp_scsi_xfer *sxfer = ocb->sxfer;
1.1  kiyohara /*
1.1  kiyohara 				uint32_t *ld = SCSI_XFER_DATA(ocb->sxfer);
1.1  kiyohara 				if(ld != NULL &&
1.1  kiyohara 				    SCSI_XFER_DATALEN(ocb->sxfer) != 0)
1.1  kiyohara 					printf("ptr %08x %08x %08x %08x\n", ld[0], ld[1], ld[2], ld[3]);
1.1  kiyohara 				else
1.1  kiyohara 					printf("ptr NULL\n");
1.1  kiyohara printf("len %d\n", sbp_status->len);
1.1  kiyohara */
1.1  kiyohara 				if(sbp_status->len > 1){
1.1  kiyohara 					sbp_scsi_status(sbp_status, ocb);
1.1  kiyohara 				}else{
1.1  kiyohara 					if(sbp_status->resp != SBP_REQ_CMP){
1.1  kiyohara 						SCSI_XFER_ERROR(sxfer) =
1.1  kiyohara 						    XS_REQ_CMP_ERR;
1.1  kiyohara 					}else{
1.1  kiyohara 						SCSI_XFER_ERROR(sxfer) =
1.1  kiyohara 						    XS_REQ_CMP;
1.1  kiyohara 						SCSI_XFER_REQUEST_COMPLETE(
1.1  kiyohara 						    sxfer);
1.1  kiyohara 					}
1.1  kiyohara 				}
1.1  kiyohara 				/* fix up inq data */
1.1  kiyohara 				if (SCSI_XFER_OPECODE(sxfer) == INQUIRY)
1.1  kiyohara 					sbp_fix_inq_data(ocb);
1.1  kiyohara 				SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 			}
1.1  kiyohara 			break;
1.1  kiyohara 		default:
1.1  kiyohara 			break;
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if (!use_doorbell)
1.1  kiyohara 		sbp_free_ocb(sdev, ocb);
1.1  kiyohara done:
1.1  kiyohara 	if (reset_agent)
1.1  kiyohara 		sbp_agent_reset(sdev);
1.1  kiyohara
1.1  kiyohara done0:
1.1  kiyohara 	xfer->recv.pay_len = SBP_RECV_LEN;
1.1  kiyohara /* The received packet is usually small enough to be stored within
1.1  kiyohara  * the buffer. In that case, the controller return ack_complete and
1.1  kiyohara  * no respose is necessary.
1.1  kiyohara  *
1.1  kiyohara  * XXX fwohci.c and firewire.c should inform event_code such as
1.1  kiyohara  * ack_complete or ack_pending to upper driver.
1.1  kiyohara  */
1.1  kiyohara #if NEED_RESPONSE
1.1  kiyohara 	xfer->send.off = 0;
1.1  kiyohara 	sfp = (struct fw_pkt *)xfer->send.buf;
1.1  kiyohara 	sfp->mode.wres.dst = rfp->mode.wreqb.src;
1.1  kiyohara 	xfer->dst = sfp->mode.wres.dst;
1.1  kiyohara 	xfer->spd = min(sdev->target->fwdev->speed, max_speed);
1.1  kiyohara 	xfer->hand = sbp_loginres_callback;
1.1  kiyohara
1.1  kiyohara 	sfp->mode.wres.tlrt = rfp->mode.wreqb.tlrt;
1.1  kiyohara 	sfp->mode.wres.tcode = FWTCODE_WRES;
1.1  kiyohara 	sfp->mode.wres.rtcode = 0;
1.1  kiyohara 	sfp->mode.wres.pri = 0;
1.1  kiyohara
1.1  kiyohara 	fw_asyreq(xfer->fc, -1, xfer);
1.1  kiyohara #else
1.1  kiyohara 	/* recycle */
1.1  kiyohara 	STAILQ_INSERT_TAIL(&sbp->fwb.xferlist, xfer, link);
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 	return;
1.1  kiyohara
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_recv(struct fw_xfer *xfer)
1.1  kiyohara {
1.1  kiyohara 	int s;
1.1  kiyohara
1.1  kiyohara 	s = splfwsbp();
1.1  kiyohara 	sbp_recv1(xfer);
1.1  kiyohara 	splx(s);
1.1  kiyohara }
1.1  kiyohara /*
1.1  kiyohara  * sbp_attach()
1.1  kiyohara  */
1.1  kiyohara FW_ATTACH(sbp)
1.1  kiyohara {
1.1  kiyohara 	FW_ATTACH_START(sbp, sbp, fwa);
1.1  kiyohara 	int dv_unit, error, s;
1.1  kiyohara 	SBP_ATTACH_START;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_attach (cold=%d)\n", cold);
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	if (cold)
1.1  kiyohara 		sbp_cold ++;
1.1  kiyohara 	sbp->fd.fc = fwa->fc;
1.1  kiyohara
1.1  kiyohara 	if (max_speed < 0)
1.1  kiyohara 		max_speed = sbp->fd.fc->speed;
1.1  kiyohara
1.1  kiyohara 	error = fw_bus_dma_tag_create(/*parent*/sbp->fd.fc->dmat,
1.1  kiyohara 				/* XXX shoud be 4 for sane backend? */
1.1  kiyohara 				/*alignment*/1,
1.1  kiyohara 				/*boundary*/0,
1.1  kiyohara 				/*lowaddr*/BUS_SPACE_MAXADDR_32BIT,
1.1  kiyohara 				/*highaddr*/BUS_SPACE_MAXADDR,
1.1  kiyohara 				/*filter*/NULL, /*filterarg*/NULL,
1.1  kiyohara 				/*maxsize*/0x100000, /*nsegments*/SBP_IND_MAX,
1.1  kiyohara 				/*maxsegsz*/SBP_SEG_MAX,
1.1  kiyohara 				/*flags*/BUS_DMA_ALLOCNOW,
1.1  kiyohara #if defined(__FreeBSD__) && __FreeBSD_version >= 501102
1.1  kiyohara 				/*lockfunc*/busdma_lock_mutex,
1.1  kiyohara 				/*lockarg*/&Giant,
1.1  kiyohara #endif
1.1  kiyohara 				&sbp->dmat);
1.1  kiyohara 	if (error != 0) {
1.1  kiyohara 		printf("sbp_attach: Could not allocate DMA tag "
1.1  kiyohara 			"- error %d\n", error);
1.1  kiyohara 			FW_ATTACH_RETURN(ENOMEM);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	devq = cam_simq_alloc(/*maxopenings*/SBP_NUM_OCB);
1.1  kiyohara 	if (devq == NULL)
1.1  kiyohara 		return (ENXIO);
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 	sbp->target.fwdev = NULL;
1.1  kiyohara 	sbp->target.luns = NULL;
1.1  kiyohara
1.1  kiyohara 	if (sbp_alloc_target(sbp, fwa->fwdev) == NULL)
1.1  kiyohara 		FW_ATTACH_RETURN(ENXIO);
1.1  kiyohara
1.1  kiyohara 	SBP_SCSIBUS_ATTACH;
1.1  kiyohara
1.1  kiyohara 	/* We reserve 16 bit space (4 bytes X 64 unit X 256 luns) */
1.1  kiyohara 	dv_unit = device_get_unit(sbp->fd.dev);
1.1  kiyohara 	sbp->fwb.start = SBP_DEV2ADDR(dv_unit, 0);
1.1  kiyohara 	sbp->fwb.end = SBP_DEV2ADDR(dv_unit, -1);
1.1  kiyohara 	/* pre-allocate xfer */
1.1  kiyohara 	STAILQ_INIT(&sbp->fwb.xferlist);
1.1  kiyohara 	fw_xferlist_add(&sbp->fwb.xferlist, M_SBP,
1.1  kiyohara 	    /*send*/ 0, /*recv*/ SBP_RECV_LEN, SBP_NUM_OCB/2,
1.1  kiyohara 	    sbp->fd.fc, (void *)sbp, sbp_recv);
1.1  kiyohara 	fw_bindadd(sbp->fd.fc, &sbp->fwb);
1.1  kiyohara
1.1  kiyohara 	sbp->fd.post_busreset = sbp_post_busreset;
1.1  kiyohara 	sbp->fd.post_explore = sbp_post_explore;
1.1  kiyohara
1.1  kiyohara 	if (sbp->fd.fc->status != -1) {
1.1  kiyohara 		s = splfw();
1.1  kiyohara 		sbp_post_busreset((void *)sbp);
1.1  kiyohara 		sbp_post_explore((void *)sbp);
1.1  kiyohara 		splx(s);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	FW_ATTACH_RETURN(0);
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara fail:
1.1  kiyohara 	cam_sim_free(sbp->sim, /*free_devq*/TRUE);
1.1  kiyohara 	return (ENXIO);
1.1  kiyohara #endif
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static int
1.1  kiyohara sbp_logout_all(struct sbp_softc *sbp)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target;
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_logout_all\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara 	target = &sbp->target;
1.1  kiyohara 	if (target->luns != NULL)
1.1  kiyohara 		for (i = 0; i < target->num_lun; i++) {
1.1  kiyohara 			sdev = target->luns[i];
1.1  kiyohara 			if (sdev == NULL)
1.1  kiyohara 				continue;
1.1  kiyohara 			callout_stop(&sdev->login_callout);
1.1  kiyohara 			if (sdev->status >= SBP_DEV_TOATTACH &&
1.1  kiyohara 					sdev->status <= SBP_DEV_ATTACHED)
1.1  kiyohara 				sbp_mgm_orb(sdev, ORB_FUN_LGO, NULL);
1.1  kiyohara 		}
1.1  kiyohara
1.1  kiyohara 	return 0;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara static int
1.1  kiyohara sbp_shutdown(device_t dev)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp = ((struct sbp_softc *)device_get_softc(dev));
1.1  kiyohara
1.1  kiyohara 	sbp_logout_all(sbp);
1.1  kiyohara 	return (0);
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_free_sdev(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara 	if (sdev == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	for (i = 0; i < SBP_QUEUE_LEN; i++)
1.1  kiyohara 		fw_bus_dmamap_destroy(sdev->target->sbp->dmat,
1.1  kiyohara 		    sdev->ocb[i].dmamap);
1.1  kiyohara 	fwdma_free(sdev->target->sbp->fd.fc, &sdev->dma);
1.1  kiyohara 	free(sdev, M_SBP);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_free_target(struct sbp_target *target)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara 	struct fw_xfer *xfer, *next;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara 	if (target->luns == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	callout_stop(&target->mgm_ocb_timeout);
1.1  kiyohara 	sbp = target->sbp;
1.1  kiyohara 	for (i = 0; i < target->num_lun; i++)
1.1  kiyohara 		sbp_free_sdev(target->luns[i]);
1.1  kiyohara
1.1  kiyohara 	for (xfer = STAILQ_FIRST(&target->xferlist);
1.1  kiyohara 			xfer != NULL; xfer = next) {
1.1  kiyohara 		next = STAILQ_NEXT(xfer, link);
1.1  kiyohara 		fw_xfer_free_buf(xfer);
1.1  kiyohara 	}
1.1  kiyohara 	STAILQ_INIT(&target->xferlist);
1.1  kiyohara 	free(target->luns, M_SBP);
1.1  kiyohara 	target->num_lun = 0;;
1.1  kiyohara 	target->luns = NULL;
1.1  kiyohara 	target->fwdev = NULL;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara FW_DETACH(sbp)
1.1  kiyohara {
1.1  kiyohara 	FW_DETACH_START(sbp, sbp);
1.1  kiyohara 	struct firewire_comm *fc = sbp->fd.fc;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	printf("sbp_detach\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	SBP_DETACH_TARGET(&sbp->target);
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	xpt_async(AC_LOST_DEVICE, sbp->path, NULL);
1.1  kiyohara 	xpt_free_path(sbp->path);
1.1  kiyohara 	xpt_bus_deregister(cam_sim_path(sbp->sim));
1.1  kiyohara 	cam_sim_free(sbp->sim, /*free_devq*/ TRUE),
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 	sbp_logout_all(sbp);
1.1  kiyohara
1.1  kiyohara 	/* XXX wait for logout completion */
1.1  kiyohara 	tsleep(&i, FWPRI, "sbpdtc", hz/2);
1.1  kiyohara
1.1  kiyohara 	sbp_free_target(&sbp->target);
1.1  kiyohara
1.1  kiyohara 	fw_bindremove(fc, &sbp->fwb);
1.1  kiyohara 	fw_xferlist_remove(&sbp->fwb.xferlist);
1.1  kiyohara
1.1  kiyohara 	fw_bus_dma_tag_destroy(sbp->dmat);
1.1  kiyohara
1.1  kiyohara 	return (0);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara static void
1.1  kiyohara sbp_cam_detach_sdev(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	if (sdev == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->status == SBP_DEV_DEAD)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->status == SBP_DEV_RESET)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->path) {
1.1  kiyohara 		xpt_release_devq(sdev->path,
1.1  kiyohara 				 sdev->freeze, TRUE);
1.1  kiyohara 		sdev->freeze = 0;
1.1  kiyohara 		xpt_async(AC_LOST_DEVICE, sdev->path, NULL);
1.1  kiyohara 		xpt_free_path(sdev->path);
1.1  kiyohara 		sdev->path = NULL;
1.1  kiyohara 	}
1.1  kiyohara 	sbp_abort_all_ocbs(sdev, XS_DEV_NOT_THERE);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_cam_detach_target(struct sbp_target *target)
1.1  kiyohara {
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara 	if (target->luns != NULL) {
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 		printf("sbp_detach_target %d\n", target->target_id);
1.1  kiyohara END_DEBUG
1.1  kiyohara 		callout_stop(&target->scan_callout);
1.1  kiyohara 		for (i = 0; i < target->num_lun; i++)
1.1  kiyohara 			sbp_cam_detach_sdev(target->luns[i]);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara static void
1.1  kiyohara sbp_scsipi_detach_sdev(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_target *target = sdev->target;
1.1  kiyohara 	struct sbp_softc *sbp = target->sbp;
1.1  kiyohara 	if (sdev == NULL)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->status == SBP_DEV_DEAD)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->status == SBP_DEV_RESET)
1.1  kiyohara 		return;
1.1  kiyohara 	if (sdev->periph) {
1.1  kiyohara 		scsipi_periph_thaw(sdev->periph, sdev->freeze);
1.1  kiyohara 		scsipi_channel_thaw(&sbp->sc_channel, 0);	/* XXXX */
1.1  kiyohara 		sdev->freeze = 0;
1.1  kiyohara 		if (scsipi_target_detach(&sbp->sc_channel,
1.1  kiyohara 		    target->target_id, sdev->lun_id, DETACH_FORCE) != 0) {
1.1  kiyohara 			sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 			printf("detach failed\n");
1.1  kiyohara 		}
1.1  kiyohara 		sdev->periph = NULL;
1.1  kiyohara 	}
1.1  kiyohara 	sbp_abort_all_ocbs(sdev, XS_DEV_NOT_THERE);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_scsipi_detach_target(struct sbp_target *target)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp = target->sbp;
1.1  kiyohara 	int i;
1.1  kiyohara
1.1  kiyohara 	if (target->luns != NULL) {
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 		printf("sbp_detach_target %d\n", target->target_id);
1.1  kiyohara END_DEBUG
1.1  kiyohara 		callout_stop(&target->scan_callout);
1.1  kiyohara 		for (i = 0; i < target->num_lun; i++)
1.1  kiyohara 			sbp_scsipi_detach_sdev(target->luns[i]);
1.1  kiyohara 		if (config_detach(sbp->sc_bus, DETACH_FORCE) != 0)
1.1  kiyohara 			device_printf(sbp->fd.dev, "%d detach failed\n",
1.1  kiyohara 				target->target_id);
1.1  kiyohara 		sbp->sc_bus = NULL;
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_target_reset(struct sbp_dev *sdev, int method)
1.1  kiyohara {
1.1  kiyohara 	int i;
1.1  kiyohara 	struct sbp_target *target = sdev->target;
1.1  kiyohara 	struct sbp_dev *tsdev;
1.1  kiyohara
1.1  kiyohara 	for (i = 0; i < target->num_lun; i++) {
1.1  kiyohara 		tsdev = target->luns[i];
1.1  kiyohara 		if (tsdev == NULL)
1.1  kiyohara 			continue;
1.1  kiyohara 		if (tsdev->status == SBP_DEV_DEAD)
1.1  kiyohara 			continue;
1.1  kiyohara 		if (tsdev->status == SBP_DEV_RESET)
1.1  kiyohara 			continue;
1.1  kiyohara 		SBP_DEVICE_FREEZE(tsdev, 1);
1.1  kiyohara 		tsdev->freeze ++;
1.1  kiyohara 		sbp_abort_all_ocbs(tsdev, XS_CMD_TIMEOUT);
1.1  kiyohara 		if (method == 2)
1.1  kiyohara 			tsdev->status = SBP_DEV_LOGIN;
1.1  kiyohara 	}
1.1  kiyohara 	switch(method) {
1.1  kiyohara 	case 1:
1.1  kiyohara 		printf("target reset\n");
1.1  kiyohara 		sbp_mgm_orb(sdev, ORB_FUN_RST, NULL);
1.1  kiyohara 		break;
1.1  kiyohara 	case 2:
1.1  kiyohara 		printf("reset start\n");
1.1  kiyohara 		sbp_reset_start(sdev);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_mgm_timeout(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_ocb *ocb = (struct sbp_ocb *)arg;
1.1  kiyohara 	struct sbp_dev *sdev = ocb->sdev;
1.1  kiyohara 	struct sbp_target *target = sdev->target;
1.1  kiyohara
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("request timeout(mgm orb:0x%08x) ... ",
1.1  kiyohara 	    (uint32_t)ocb->bus_addr);
1.1  kiyohara 	target->mgm_ocb_cur = NULL;
1.1  kiyohara 	sbp_free_ocb(sdev, ocb);
1.1  kiyohara #if 0
1.1  kiyohara 	/* XXX */
1.1  kiyohara 	printf("run next request\n");
1.1  kiyohara 	sbp_mgm_orb(sdev, ORB_FUN_RUNQUEUE, NULL);
1.1  kiyohara #endif
1.1  kiyohara #if 1
1.1  kiyohara 	printf("reset start\n");
1.1  kiyohara 	sbp_reset_start(sdev);
1.1  kiyohara #endif
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_timeout(void *arg)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_ocb *ocb = (struct sbp_ocb *)arg;
1.1  kiyohara 	struct sbp_dev *sdev = ocb->sdev;
1.1  kiyohara
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 	printf("request timeout(cmd orb:0x%08x) ... ",
1.1  kiyohara 	    (uint32_t)ocb->bus_addr);
1.1  kiyohara
1.1  kiyohara 	sdev->timeout ++;
1.1  kiyohara 	switch(sdev->timeout) {
1.1  kiyohara 	case 1:
1.1  kiyohara 		printf("agent reset\n");
1.1  kiyohara 		SBP_DEVICE_FREEZE(sdev, 1);
1.1  kiyohara 		sdev->freeze ++;
1.1  kiyohara 		sbp_abort_all_ocbs(sdev, XS_CMD_TIMEOUT);
1.1  kiyohara 		sbp_agent_reset(sdev);
1.1  kiyohara 		break;
1.1  kiyohara 	case 2:
1.1  kiyohara 	case 3:
1.1  kiyohara 		sbp_target_reset(sdev, sdev->timeout - 1);
1.1  kiyohara 		break;
1.1  kiyohara #if 0
1.1  kiyohara 	default:
1.1  kiyohara 		/* XXX give up */
1.1  kiyohara 		SBP_DETACH_TARGET(target);
1.1  kiyohara 		if (target->luns != NULL)
1.1  kiyohara 			free(target->luns, M_SBP);
1.1  kiyohara 		target->num_lun = 0;;
1.1  kiyohara 		target->luns = NULL;
1.1  kiyohara 		target->fwdev = NULL;
1.1  kiyohara #endif
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_action1(struct sbp_softc *sbp, sbp_scsi_xfer *sxfer)
1.1  kiyohara {
1.1  kiyohara
1.1  kiyohara 	struct sbp_target *target = NULL;
1.1  kiyohara 	struct sbp_dev *sdev = NULL;
1.1  kiyohara
1.1  kiyohara 	/* target:lun -> sdev mapping */
1.1  kiyohara 	if (sbp != NULL) {
1.1  kiyohara 		target = &sbp->target;
1.1  kiyohara 		if (target->fwdev != NULL
1.1  kiyohara 				&& NOT_LUN_WILDCARD(SCSI_XFER_LUN(sxfer))
1.1  kiyohara 				&& SCSI_XFER_LUN(sxfer) < target->num_lun) {
1.1  kiyohara 			sdev = target->luns[SCSI_XFER_LUN(sxfer)];
1.1  kiyohara 			if (sdev != NULL && sdev->status != SBP_DEV_ATTACHED &&
1.1  kiyohara 				sdev->status != SBP_DEV_PROBE)
1.1  kiyohara 				sdev = NULL;
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	if (sdev == NULL)
1.1  kiyohara 		printf("invalid target %d lun %d\n",
1.1  kiyohara 			SCSI_XFER_TARGET(sxfer), SCSI_XFER_LUN(sxfer));
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	switch (SCSI_XFER_FUNCCODE(sxfer)) {
1.1  kiyohara 	case XPT_SCSI_IO:
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	case XPT_RESET_DEV:
1.1  kiyohara 	case XPT_GET_TRAN_SETTINGS:
1.1  kiyohara 	case XPT_SET_TRAN_SETTINGS:
1.1  kiyohara 	case XPT_CALC_GEOMETRY:
1.1  kiyohara #endif
1.1  kiyohara 		if (sdev == NULL) {
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 			printf("%s:%d:%d:func_code 0x%04x: "
1.1  kiyohara 				"Invalid target (target needed)\n",
1.1  kiyohara 				device_get_nameunit(sbp->fd.dev),
1.1  kiyohara 				SCSI_XFER_TARGET(sxfer), SCSI_XFER_LUN(sxfer),
1.1  kiyohara 				SCSI_XFER_FUNCCODE(sxfer));
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 			SCSI_XFER_ERROR(sxfer) = XS_DEV_NOT_THERE;
1.1  kiyohara 			SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 			return;
1.1  kiyohara 		}
1.1  kiyohara 		break;
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	case XPT_PATH_INQ:
1.1  kiyohara 	case XPT_NOOP:
1.1  kiyohara 		/* The opcodes sometimes aimed at a target (sc is valid),
1.1  kiyohara 		 * sometimes aimed at the SIM (sc is invalid and target is
1.1  kiyohara 		 * CAM_TARGET_WILDCARD)
1.1  kiyohara 		 */
1.1  kiyohara 		if (sbp == NULL &&
1.1  kiyohara 			sxfer->ccb_h.target_id != CAM_TARGET_WILDCARD) {
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 			printf("%s:%d:%d func_code 0x%04x: "
1.1  kiyohara 				"Invalid target (no wildcard)\n",
1.1  kiyohara 				device_get_nameunit(sbp->fd.dev),
1.1  kiyohara 				sxfer->ccb_h.target_id, sxfer->ccb_h.target_lun,
1.1  kiyohara 				sxfer->ccb_h.func_code);
1.1  kiyohara END_DEBUG
1.1  kiyohara 			SCSI_XFER_ERROR(sxfer) = XS_DEV_NOT_THERE;
1.1  kiyohara 			SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 			return;
1.1  kiyohara 		}
1.1  kiyohara 		break;
1.1  kiyohara #endif
1.1  kiyohara 	default:
1.1  kiyohara 		/* XXX Hm, we should check the input parameters */
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	switch (SCSI_XFER_FUNCCODE(sxfer)) {
1.1  kiyohara 	case XPT_SCSI_IO:
1.1  kiyohara 	{
1.1  kiyohara 		struct sbp_ocb *ocb;
1.1  kiyohara 		int speed;
1.1  kiyohara 		void *cdb;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(2)
1.1  kiyohara 		printf("%s:%d:%d XPT_SCSI_IO: "
1.1  kiyohara 			"cmd: %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x"
1.1  kiyohara 			", flags: 0x%02x, "
1.1  kiyohara 			"%db cmd/%db data/%db sense\n",
1.1  kiyohara 			device_get_nameunit(sbp->fd.dev),
1.1  kiyohara 			SCSI_XFER_TARGET(sxfer), SCSI_XFER_LUN(sxfer),
1.1  kiyohara 			SCSI_XFER_10BCMD_DUMP(sxfer),
1.1  kiyohara 			SCSI_XFER_DIR(sxfer),
1.1  kiyohara 			SCSI_XFER_CMDLEN(sxfer), SCSI_XFER_DATALEN(sxfer),
1.1  kiyohara 			SCSI_XFER_SENSELEN(sxfer));
1.1  kiyohara END_DEBUG
1.1  kiyohara 		if(sdev == NULL){
1.1  kiyohara 			SCSI_XFER_ERROR(sxfer) = XS_DEV_NOT_THERE;
1.1  kiyohara 			SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 			return;
1.1  kiyohara 		}
1.1  kiyohara #if 0
1.1  kiyohara 		/* if we are in probe stage, pass only probe commands */
1.1  kiyohara 		if (sdev->status == SBP_DEV_PROBE) {
1.1  kiyohara 			char *name;
1.1  kiyohara 			name = xpt_path_periph(sxfer->ccb_h.path)->periph_name;
1.1  kiyohara 			printf("probe stage, periph name: %s\n", name);
1.1  kiyohara 			if (strcmp(name, "probe") != 0) {
1.1  kiyohara 				SCSI_XFER_ERROR(sxfer) = XS_REQUEUE_REQ;
1.1  kiyohara 				SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 				return;
1.1  kiyohara 			}
1.1  kiyohara 		}
1.1  kiyohara #endif
1.1  kiyohara 		if ((ocb = sbp_get_ocb(sdev)) == NULL) {
1.1  kiyohara 			SCSI_XFER_ERROR(sxfer) = XS_REQUEUE_REQ;
1.1  kiyohara 			if (sdev->freeze == 0) {
1.1  kiyohara 				SBP_DEVICE_FREEZE(sdev, 1);
1.1  kiyohara 				sdev->freeze ++;
1.1  kiyohara 			}
1.1  kiyohara 			SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 			return;
1.1  kiyohara 		}
1.1  kiyohara
1.1  kiyohara 		ocb->flags = OCB_ACT_CMD;
1.1  kiyohara 		ocb->sdev = sdev;
1.1  kiyohara 		ocb->sxfer = sxfer;
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 		sxfer->ccb_h.ccb_sdev_ptr = sdev;
1.1  kiyohara #endif
1.1  kiyohara 		ocb->orb[0] = htonl(1 << 31);
1.1  kiyohara 		ocb->orb[1] = 0;
1.1  kiyohara 		ocb->orb[2] = htonl(((sbp->fd.fc->nodeid | FWLOCALBUS )<< 16) );
1.1  kiyohara 		ocb->orb[3] = htonl(ocb->bus_addr + IND_PTR_OFFSET);
1.1  kiyohara 		speed = min(target->fwdev->speed, max_speed);
1.1  kiyohara 		ocb->orb[4] = htonl(ORB_NOTIFY | ORB_CMD_SPD(speed)
1.1  kiyohara 						| ORB_CMD_MAXP(speed + 7));
1.1  kiyohara 		if(SCSI_XFER_DIR(sxfer) == SCSI_XFER_DATA_IN){
1.1  kiyohara 			ocb->orb[4] |= htonl(ORB_CMD_IN);
1.1  kiyohara 		}
1.1  kiyohara
1.1  kiyohara 		if (CAM_XFER_FLAGS(sxfer) & CAM_SCATTER_VALID)
1.1  kiyohara 			printf("sbp: CAM_SCATTER_VALID\n");
1.1  kiyohara 		if (CAM_XFER_FLAGS(sxfer) & CAM_DATA_PHYS)
1.1  kiyohara 			printf("sbp: CAM_DATA_PHYS\n");
1.1  kiyohara
1.1  kiyohara 		cdb = SCSI_XFER_CMD(sxfer);
1.1  kiyohara 		bcopy(cdb, (void *)&ocb->orb[5], SCSI_XFER_CMDLEN(sxfer));
1.1  kiyohara /*
1.1  kiyohara printf("ORB %08x %08x %08x %08x\n", ntohl(ocb->orb[0]), ntohl(ocb->orb[1]), ntohl(ocb->orb[2]), ntohl(ocb->orb[3]));
1.1  kiyohara printf("ORB %08x %08x %08x %08x\n", ntohl(ocb->orb[4]), ntohl(ocb->orb[5]), ntohl(ocb->orb[6]), ntohl(ocb->orb[7]));
1.1  kiyohara */
1.1  kiyohara 		if (SCSI_XFER_DATALEN(sxfer) > 0) {
1.1  kiyohara 			int s, error;
1.1  kiyohara
1.1  kiyohara 			s = splsoftvm();
1.1  kiyohara 			error = fw_bus_dmamap_load(/*dma tag*/sbp->dmat,
1.1  kiyohara 					/*dma map*/ocb->dmamap,
1.1  kiyohara 					SCSI_XFER_DATA(sxfer),
1.1  kiyohara 					SCSI_XFER_DATALEN(sxfer),
1.1  kiyohara 					sbp_execute_ocb,
1.1  kiyohara 					ocb,
1.1  kiyohara 					/*flags*/0);
1.1  kiyohara 			splx(s);
1.1  kiyohara 			if (error)
1.1  kiyohara 				printf("sbp: bus_dmamap_load error %d\n", error);
1.1  kiyohara 		} else
1.1  kiyohara 			sbp_execute_ocb(ocb, NULL, 0, 0);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara 	case XPT_CALC_GEOMETRY:
1.1  kiyohara 	{
1.1  kiyohara 		struct ccb_calc_geometry *ccg;
1.1  kiyohara #if defined(__DragonFly__) || __FreeBSD_version < 501100
1.1  kiyohara 		uint32_t size_mb;
1.1  kiyohara 		uint32_t secs_per_cylinder;
1.1  kiyohara 		int extended = 1;
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 		ccg = &sxfer->ccg;
1.1  kiyohara 		if (ccg->block_size == 0) {
1.1  kiyohara 			printf("sbp_action1: block_size is 0.\n");
1.1  kiyohara 			SCSI_XFER_ERROR(sxfer) = XS_REQ_INVALID;
1.1  kiyohara 			SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 			break;
1.1  kiyohara 		}
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 		printf("%s:%d:%d:%d:XPT_CALC_GEOMETRY: "
1.1  kiyohara #if defined(__DragonFly__) || __FreeBSD_version < 500000
1.1  kiyohara 			"Volume size = %d\n",
1.1  kiyohara #else
1.1  kiyohara 			"Volume size = %jd\n",
1.1  kiyohara #endif
1.1  kiyohara 			device_get_nameunit(sbp->fd.dev),
1.1  kiyohara 			cam_sim_path(sbp->sim),
1.1  kiyohara 			sxfer->ccb_h.target_id, sxfer->ccb_h.target_lun,
1.1  kiyohara #if defined(__FreeBSD__) && __FreeBSD_version >= 500000
1.1  kiyohara 			(uintmax_t)
1.1  kiyohara #endif
1.1  kiyohara 				ccg->volume_size);
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara #if defined(__DragonFly__) || __FreeBSD_version < 501100
1.1  kiyohara 		size_mb = ccg->volume_size
1.1  kiyohara 			/ ((1024L * 1024L) / ccg->block_size);
1.1  kiyohara
1.1  kiyohara 		if (size_mb > 1024 && extended) {
1.1  kiyohara 			ccg->heads = 255;
1.1  kiyohara 			ccg->secs_per_track = 63;
1.1  kiyohara 		} else {
1.1  kiyohara 			ccg->heads = 64;
1.1  kiyohara 			ccg->secs_per_track = 32;
1.1  kiyohara 		}
1.1  kiyohara 		secs_per_cylinder = ccg->heads * ccg->secs_per_track;
1.1  kiyohara 		ccg->cylinders = ccg->volume_size / secs_per_cylinder;
1.1  kiyohara 		SCSI_XFER_ERROR(sxfer) = XS_REQ_CMP;
1.1  kiyohara #else
1.1  kiyohara 		cam_calc_geometry(ccg, /*extended*/1);
1.1  kiyohara #endif
1.1  kiyohara 		SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara 	case XPT_RESET_BUS:		/* Reset the specified SCSI bus */
1.1  kiyohara 	{
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 		printf("%s:%d:XPT_RESET_BUS: \n",
1.1  kiyohara 			device_get_nameunit(sbp->fd.dev), cam_sim_path(sbp->sim));
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 		SCSI_XFER_ERROR(sxfer) = XS_REQ_INVALID;
1.1  kiyohara 		SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara 	case XPT_PATH_INQ:		/* Path routing inquiry */
1.1  kiyohara 	{
1.1  kiyohara 		struct ccb_pathinq *cpi = &sxfer->cpi;
1.1  kiyohara 		struct cam_sim *sim = sbp->sim;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 		printf("%s:%d:%d XPT_PATH_INQ:.\n",
1.1  kiyohara 			device_get_nameunit(sbp->fd.dev),
1.1  kiyohara 			sxfer->ccb_h.target_id, sxfer->ccb_h.target_lun);
1.1  kiyohara END_DEBUG
1.1  kiyohara 		cpi->version_num = 1; /* XXX??? */
1.1  kiyohara 		cpi->hba_inquiry = PI_TAG_ABLE;
1.1  kiyohara 		cpi->target_sprt = 0;
1.1  kiyohara 		cpi->hba_misc = PIM_NOBUSRESET | PIM_NO_6_BYTE;
1.1  kiyohara 		cpi->hba_eng_cnt = 0;
1.1  kiyohara 		cpi->max_target = SBP_NUM_TARGETS - 1;
1.1  kiyohara 		cpi->max_lun = SBP_NUM_LUNS - 1;
1.1  kiyohara 		cpi->initiator_id = SBP_INITIATOR;
1.1  kiyohara 		cpi->bus_id = sim->bus_id;
1.1  kiyohara 		cpi->base_transfer_speed = 400 * 1000 / 8;
1.1  kiyohara 		strncpy(cpi->sim_vid, "FreeBSD", SIM_IDLEN);
1.1  kiyohara 		strncpy(cpi->hba_vid, "SBP", HBA_IDLEN);
1.1  kiyohara 		strncpy(cpi->dev_name, sim->sim_name, DEV_IDLEN);
1.1  kiyohara 		cpi->unit_number = sim->unit_number;
1.1  kiyohara
1.1  kiyohara 		SCSI_XFER_ERROR(cpi) = XS_REQ_CMP;
1.1  kiyohara 		SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara 	case XPT_GET_TRAN_SETTINGS:
1.1  kiyohara 	{
1.1  kiyohara 		struct ccb_trans_settings *cts = &sxfer->cts;
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 		printf("%s:%d:%d XPT_GET_TRAN_SETTINGS:.\n",
1.1  kiyohara 			device_get_nameunit(sbp->fd.dev),
1.1  kiyohara 			sxfer->ccb_h.target_id, sxfer->ccb_h.target_lun);
1.1  kiyohara END_DEBUG
1.1  kiyohara 		/* Enable disconnect and tagged queuing */
1.1  kiyohara 		cts->valid = CCB_TRANS_DISC_VALID | CCB_TRANS_TQ_VALID;
1.1  kiyohara 		cts->flags = CCB_TRANS_DISC_ENB | CCB_TRANS_TAG_ENB;
1.1  kiyohara
1.1  kiyohara 		SCSI_XFER_ERROR(cts) = XS_REQ_CMP;
1.1  kiyohara 		SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 		break;
1.1  kiyohara 	}
1.1  kiyohara 	case XPT_ABORT:
1.1  kiyohara 		SCSI_XFER_ERROR(sxfer) = XS_UA_ABORT;
1.1  kiyohara 		SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 		break;
1.1  kiyohara 	case XPT_SET_TRAN_SETTINGS:
1.1  kiyohara 		/* XXX */
1.1  kiyohara 	default:
1.1  kiyohara 		SCSI_XFER_ERROR(sxfer) = XS_REQ_INVALID;
1.1  kiyohara 		SCSI_TRANSFER_DONE(sxfer);
1.1  kiyohara 		break;
1.1  kiyohara #endif
1.1  kiyohara 	}
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara static void
1.1  kiyohara sbp_action(struct cam_sim *sim, sbp_scsi_xfer *sxfer)
1.1  kiyohara {
1.1  kiyohara 	int s;
1.1  kiyohara
1.1  kiyohara 	s = splfw();
1.1  kiyohara 	sbp_action1(sim->softc, sxfer);
1.1  kiyohara 	splx(s);
1.1  kiyohara }
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_execute_ocb(void *arg,  bus_dma_segment_t *segments, int seg, int error)
1.1  kiyohara {
1.1  kiyohara 	int i;
1.1  kiyohara 	struct sbp_ocb *ocb;
1.1  kiyohara 	struct sbp_ocb *prev;
1.1  kiyohara 	bus_dma_segment_t *s;
1.1  kiyohara
1.1  kiyohara 	if (error)
1.1  kiyohara 		printf("sbp_execute_ocb: error=%d\n", error);
1.1  kiyohara
1.1  kiyohara 	ocb = (struct sbp_ocb *)arg;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(2)
1.1  kiyohara 	printf("sbp_execute_ocb: seg %d", seg);
1.1  kiyohara 	for (i = 0; i < seg; i++)
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 		printf(", %x:%d", segments[i].ds_addr, segments[i].ds_len);
1.1  kiyohara #else
1.1  kiyohara 		printf(", %jx:%jd", (uintmax_t)segments[i].ds_addr,
1.1  kiyohara 					(uintmax_t)segments[i].ds_len);
1.1  kiyohara #endif
1.1  kiyohara 	printf("\n");
1.1  kiyohara END_DEBUG
1.1  kiyohara
1.1  kiyohara 	if (seg == 1) {
1.1  kiyohara 		/* direct pointer */
1.1  kiyohara 		s = &segments[0];
1.1  kiyohara 		if (s->ds_len > SBP_SEG_MAX)
1.1  kiyohara 			panic("ds_len > SBP_SEG_MAX, fix busdma code");
1.1  kiyohara 		ocb->orb[3] = htonl(s->ds_addr);
1.1  kiyohara 		ocb->orb[4] |= htonl(s->ds_len);
1.1  kiyohara 	} else if(seg > 1) {
1.1  kiyohara 		/* page table */
1.1  kiyohara 		for (i = 0; i < seg; i++) {
1.1  kiyohara 			s = &segments[i];
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 			/* XXX LSI Logic "< 16 byte" bug might be hit */
1.1  kiyohara 			if (s->ds_len < 16)
1.1  kiyohara 				printf("sbp_execute_ocb: warning, "
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 					"segment length(%d) is less than 16."
1.1  kiyohara #else
1.1  kiyohara 					"segment length(%jd) is less than 16."
1.1  kiyohara #endif
1.1  kiyohara 					"(seg=%d/%d)\n", (uintmax_t)s->ds_len, i+1, seg);
1.1  kiyohara END_DEBUG
1.1  kiyohara 			if (s->ds_len > SBP_SEG_MAX)
1.1  kiyohara 				panic("ds_len > SBP_SEG_MAX, fix busdma code");
1.1  kiyohara 			ocb->ind_ptr[i].hi = htonl(s->ds_len << 16);
1.1  kiyohara 			ocb->ind_ptr[i].lo = htonl(s->ds_addr);
1.1  kiyohara 		}
1.1  kiyohara 		ocb->orb[4] |= htonl(ORB_CMD_PTBL | seg);
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	if (seg > 0)
1.1  kiyohara 		fw_bus_dmamap_sync(ocb->sdev->target->sbp->dmat, ocb->dmamap,
1.1  kiyohara 			(ntohl(ocb->orb[4]) & ORB_CMD_IN) ?
1.1  kiyohara 			BUS_DMASYNC_PREREAD : BUS_DMASYNC_PREWRITE);
1.1  kiyohara 	prev = sbp_enqueue_ocb(ocb->sdev, ocb);
1.1  kiyohara 	fwdma_sync(&ocb->sdev->dma, BUS_DMASYNC_PREWRITE);
1.1  kiyohara 	if (use_doorbell) {
1.1  kiyohara 		if (prev == NULL) {
1.1  kiyohara 			if (ocb->sdev->last_ocb != NULL)
1.1  kiyohara 				sbp_doorbell(ocb->sdev);
1.1  kiyohara 			else
1.1  kiyohara 				sbp_orb_pointer(ocb->sdev, ocb);
1.1  kiyohara 		}
1.1  kiyohara 	} else {
1.1  kiyohara 		if (prev == NULL || (ocb->sdev->flags & ORB_LINK_DEAD) != 0) {
1.1  kiyohara 			ocb->sdev->flags &= ~ORB_LINK_DEAD;
1.1  kiyohara 			sbp_orb_pointer(ocb->sdev, ocb);
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara static void
1.1  kiyohara sbp_poll(struct cam_sim *sim)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_softc *sbp;
1.1  kiyohara 	struct firewire_comm *fc;
1.1  kiyohara
1.1  kiyohara 	sbp = (struct sbp_softc *)sim->softc;
1.1  kiyohara 	fc = sbp->fd.fc;
1.1  kiyohara
1.1  kiyohara 	fc->poll(fc, 0, -1);
1.1  kiyohara
1.1  kiyohara 	return;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #endif
1.1  kiyohara static struct sbp_ocb *
1.1  kiyohara sbp_dequeue_ocb(struct sbp_dev *sdev, struct sbp_status *sbp_status)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_ocb *ocb;
1.1  kiyohara 	struct sbp_ocb *next;
1.1  kiyohara 	int s = splfw(), order = 0;
1.1  kiyohara 	int flags;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 	printf("%s: 0x%08lx src %d\n",
1.1  kiyohara #else
1.1  kiyohara 	printf("%s: 0x%08x src %d\n",
1.1  kiyohara #endif
1.1  kiyohara 	    __func__, ntohl(sbp_status->orb_lo), sbp_status->src);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	for (ocb = STAILQ_FIRST(&sdev->ocbs); ocb != NULL; ocb = next) {
1.1  kiyohara 		next = STAILQ_NEXT(ocb, ocb);
1.1  kiyohara 		flags = ocb->flags;
1.1  kiyohara 		if (OCB_MATCH(ocb, sbp_status)) {
1.1  kiyohara 			/* found */
1.1  kiyohara 			STAILQ_REMOVE(&sdev->ocbs, ocb, sbp_ocb, ocb);
1.1  kiyohara 			if (ocb->sxfer != NULL)
1.1  kiyohara #if defined(__DragonFly__) || defined(__NetBSD__)
1.1  kiyohara 				callout_stop(&SCSI_XFER_CALLOUT(ocb->sxfer));
1.1  kiyohara #else
1.1  kiyohara 				untimeout(sbp_timeout, (caddr_t)ocb,
1.1  kiyohara 						SCSI_XFER_CALLOUT(ocb->sxfer));
1.1  kiyohara #endif
1.1  kiyohara 			if (ntohl(ocb->orb[4]) & 0xffff) {
1.1  kiyohara 				fw_bus_dmamap_sync(sdev->target->sbp->dmat,
1.1  kiyohara 					ocb->dmamap,
1.1  kiyohara 					(ntohl(ocb->orb[4]) & ORB_CMD_IN) ?
1.1  kiyohara 					BUS_DMASYNC_POSTREAD :
1.1  kiyohara 					BUS_DMASYNC_POSTWRITE);
1.1  kiyohara 				fw_bus_dmamap_unload(sdev->target->sbp->dmat,
1.1  kiyohara 					ocb->dmamap);
1.1  kiyohara 			}
1.1  kiyohara 			if (!use_doorbell) {
1.1  kiyohara 				if (sbp_status->src == SRC_NO_NEXT) {
1.1  kiyohara 					if (next != NULL)
1.1  kiyohara 						sbp_orb_pointer(sdev, next);
1.1  kiyohara 					else if (order > 0) {
1.1  kiyohara 						/*
1.1  kiyohara 						 * Unordered execution
1.1  kiyohara 						 * We need to send pointer for
1.1  kiyohara 						 * next ORB
1.1  kiyohara 						 */
1.1  kiyohara 						sdev->flags |= ORB_LINK_DEAD;
1.1  kiyohara 					}
1.1  kiyohara 				}
1.1  kiyohara 			} else {
1.1  kiyohara 				/*
1.1  kiyohara 				 * XXX this is not correct for unordered
1.1  kiyohara 				 * execution.
1.1  kiyohara 				 */
1.1  kiyohara 				if (sdev->last_ocb != NULL)
1.1  kiyohara 					sbp_free_ocb(sdev, sdev->last_ocb);
1.1  kiyohara 				sdev->last_ocb = ocb;
1.1  kiyohara 				if (next != NULL &&
1.1  kiyohara 				    sbp_status->src == SRC_NO_NEXT)
1.1  kiyohara 					sbp_doorbell(sdev);
1.1  kiyohara 			}
1.1  kiyohara 			break;
1.1  kiyohara 		} else
1.1  kiyohara 			order ++;
1.1  kiyohara 	}
1.1  kiyohara 	splx(s);
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	if (ocb && order > 0) {
1.1  kiyohara 		sbp_show_sdev_info(sdev, 2);
1.1  kiyohara 		printf("unordered execution order:%d\n", order);
1.1  kiyohara 	}
1.1  kiyohara END_DEBUG
1.1  kiyohara 	return (ocb);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static struct sbp_ocb *
1.1  kiyohara sbp_enqueue_ocb(struct sbp_dev *sdev, struct sbp_ocb *ocb)
1.1  kiyohara {
1.1  kiyohara 	int s = splfw();
1.1  kiyohara 	struct sbp_ocb *prev, *prev2;
1.1  kiyohara
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 	printf("%s: 0x%08x\n", __func__, ocb->bus_addr);
1.1  kiyohara #else
1.1  kiyohara 	printf("%s: 0x%08jx\n", __func__, (uintmax_t)ocb->bus_addr);
1.1  kiyohara #endif
1.1  kiyohara END_DEBUG
1.1  kiyohara 	prev2 = prev = STAILQ_LAST(&sdev->ocbs, sbp_ocb, ocb);
1.1  kiyohara 	STAILQ_INSERT_TAIL(&sdev->ocbs, ocb, ocb);
1.1  kiyohara
1.1  kiyohara 	if (ocb->sxfer != NULL)
1.1  kiyohara #if defined(__DragonFly__) || defined(__NetBSD__)
1.1  kiyohara 		callout_reset(&SCSI_XFER_CALLOUT(ocb->sxfer),
1.1  kiyohara 		    mstohz(SCSI_XFER_TIMEOUT(ocb->sxfer)), sbp_timeout, ocb);
1.1  kiyohara #else
1.1  kiyohara 		SCSI_XFER_CALLOUT(ocb->sxfer) = timeout(sbp_timeout,
1.1  kiyohara 		    (caddr_t)ocb, mstohz(SCSI_XFER_TIMEOUT(ocb->sxfer)));
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 	if (use_doorbell && prev == NULL)
1.1  kiyohara 		prev2 = sdev->last_ocb;
1.1  kiyohara
1.1  kiyohara 	if (prev2 != NULL) {
1.1  kiyohara SBP_DEBUG(2)
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 		printf("linking chain 0x%x -> 0x%x\n",
1.1  kiyohara 		    prev2->bus_addr, ocb->bus_addr);
1.1  kiyohara #else
1.1  kiyohara 		printf("linking chain 0x%jx -> 0x%jx\n",
1.1  kiyohara 		    (uintmax_t)prev2->bus_addr, (uintmax_t)ocb->bus_addr);
1.1  kiyohara #endif
1.1  kiyohara END_DEBUG
1.1  kiyohara 		prev2->orb[1] = htonl(ocb->bus_addr);
1.1  kiyohara 		prev2->orb[0] = 0;
1.1  kiyohara 	}
1.1  kiyohara 	splx(s);
1.1  kiyohara
1.1  kiyohara 	return prev;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static struct sbp_ocb *
1.1  kiyohara sbp_get_ocb(struct sbp_dev *sdev)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_ocb *ocb;
1.1  kiyohara 	int s = splfw();
1.1  kiyohara 	ocb = STAILQ_FIRST(&sdev->free_ocbs);
1.1  kiyohara 	if (ocb == NULL) {
1.1  kiyohara 		sdev->flags |= ORB_SHORTAGE;
1.1  kiyohara 		printf("ocb shortage!!!\n");
1.1  kiyohara 		splx(s);
1.1  kiyohara 		return NULL;
1.1  kiyohara 	}
1.1  kiyohara 	STAILQ_REMOVE_HEAD(&sdev->free_ocbs, ocb);
1.1  kiyohara 	splx(s);
1.1  kiyohara 	ocb->sxfer = NULL;
1.1  kiyohara 	return (ocb);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_free_ocb(struct sbp_dev *sdev, struct sbp_ocb *ocb)
1.1  kiyohara {
1.1  kiyohara 	ocb->flags = 0;
1.1  kiyohara 	ocb->sxfer = NULL;
1.1  kiyohara 	STAILQ_INSERT_TAIL(&sdev->free_ocbs, ocb, ocb);
1.1  kiyohara 	if ((sdev->flags & ORB_SHORTAGE) != 0) {
1.1  kiyohara 		int count;
1.1  kiyohara
1.1  kiyohara 		sdev->flags &= ~ORB_SHORTAGE;
1.1  kiyohara 		count = sdev->freeze;
1.1  kiyohara 		sdev->freeze = 0;
1.1  kiyohara 		SBP_DEVICE_THAW(sdev, count);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_abort_ocb(struct sbp_ocb *ocb, int status)
1.1  kiyohara {
1.1  kiyohara 	struct sbp_dev *sdev;
1.1  kiyohara
1.1  kiyohara 	sdev = ocb->sdev;
1.1  kiyohara SBP_DEBUG(0)
1.1  kiyohara 	sbp_show_sdev_info(sdev, 2);
1.1  kiyohara #if defined(__DragonFly__) || \
1.1  kiyohara     (defined(__FreeBSD__) && __FreeBSD_version < 500000)
1.1  kiyohara 	printf("sbp_abort_ocb 0x%x\n", ocb->bus_addr);
1.1  kiyohara #else
1.1  kiyohara 	printf("sbp_abort_ocb 0x%jx\n", (uintmax_t)ocb->bus_addr);
1.1  kiyohara #endif
1.1  kiyohara END_DEBUG
1.1  kiyohara SBP_DEBUG(1)
1.1  kiyohara 	if (ocb->sxfer != NULL)
1.1  kiyohara 		sbp_print_scsi_cmd(ocb);
1.1  kiyohara END_DEBUG
1.1  kiyohara 	if (ntohl(ocb->orb[4]) & 0xffff) {
1.1  kiyohara 		fw_bus_dmamap_sync(sdev->target->sbp->dmat, ocb->dmamap,
1.1  kiyohara 			(ntohl(ocb->orb[4]) & ORB_CMD_IN) ?
1.1  kiyohara 			BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE);
1.1  kiyohara 		fw_bus_dmamap_unload(sdev->target->sbp->dmat, ocb->dmamap);
1.1  kiyohara 	}
1.1  kiyohara 	if (ocb->sxfer != NULL) {
1.1  kiyohara #if defined(__DragonFly__ ) || defined(__NetBSD__)
1.1  kiyohara 		callout_stop(&SCSI_XFER_CALLOUT(ocb->sxfer));
1.1  kiyohara #else
1.1  kiyohara 		untimeout(sbp_timeout, (caddr_t)ocb,
1.1  kiyohara 					SCSI_XFER_CALLOUT(ocb->sxfer));
1.1  kiyohara #endif
1.1  kiyohara 		SCSI_XFER_ERROR(ocb->sxfer) = status;
1.1  kiyohara 		SCSI_TRANSFER_DONE(ocb->sxfer);
1.1  kiyohara 	}
1.1  kiyohara 	sbp_free_ocb(sdev, ocb);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_abort_all_ocbs(struct sbp_dev *sdev, int status)
1.1  kiyohara {
1.1  kiyohara 	int s;
1.1  kiyohara 	struct sbp_ocb *ocb, *next;
1.1  kiyohara 	STAILQ_HEAD(, sbp_ocb) temp;
1.1  kiyohara
1.1  kiyohara 	s = splfw();
1.1  kiyohara
1.1  kiyohara 	bcopy(&sdev->ocbs, &temp, sizeof(temp));
1.1  kiyohara 	STAILQ_INIT(&sdev->ocbs);
1.1  kiyohara 	for (ocb = STAILQ_FIRST(&temp); ocb != NULL; ocb = next) {
1.1  kiyohara 		next = STAILQ_NEXT(ocb, ocb);
1.1  kiyohara 		sbp_abort_ocb(ocb, status);
1.1  kiyohara 	}
1.1  kiyohara 	if (sdev->last_ocb != NULL) {
1.1  kiyohara 		sbp_free_ocb(sdev, sdev->last_ocb);
1.1  kiyohara 		sdev->last_ocb = NULL;
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	splx(s);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara static devclass_t sbp_devclass;
1.1  kiyohara
1.1  kiyohara static device_method_t sbp_methods[] = {
1.1  kiyohara 	/* device interface */
1.1  kiyohara 	DEVMETHOD(device_probe,		sbp_probe),
1.1  kiyohara 	DEVMETHOD(device_attach,	sbp_attach),
1.1  kiyohara 	DEVMETHOD(device_detach,	sbp_detach),
1.1  kiyohara 	DEVMETHOD(device_shutdown,	sbp_shutdown),
1.1  kiyohara
1.1  kiyohara 	{ 0, 0 }
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara static driver_t sbp_driver = {
1.1  kiyohara 	"sbp",
1.1  kiyohara 	sbp_methods,
1.1  kiyohara 	sizeof(struct sbp_softc),
1.1  kiyohara };
1.1  kiyohara #ifdef __DragonFly__
1.1  kiyohara DECLARE_DUMMY_MODULE(sbp);
1.1  kiyohara #endif
1.1  kiyohara DRIVER_MODULE(sbp, firewire, sbp_driver, sbp_devclass, 0, 0);
1.1  kiyohara MODULE_VERSION(sbp, 1);
1.1  kiyohara MODULE_DEPEND(sbp, firewire, 1, 1, 1);
1.1  kiyohara MODULE_DEPEND(sbp, cam, 1, 1, 1);
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara static void
1.1  kiyohara sbp_scsipi_request(
1.1  kiyohara     struct scsipi_channel *channel, scsipi_adapter_req_t req, void *arg)
1.1  kiyohara {
1.1  kiyohara 	int i, s;
1.1  kiyohara 	struct sbp_softc *sbp =
1.1  kiyohara 	    (struct sbp_softc *)channel->chan_adapter->adapt_dev;
1.1  kiyohara 	struct scsipi_xfer *xs = arg;
1.1  kiyohara
1.1  kiyohara 	if (debug > 1)
1.1  kiyohara 		printf("Called sbpscsi_scsipi_request\n");
1.1  kiyohara
1.1  kiyohara 	switch (req) {
1.1  kiyohara 	case ADAPTER_REQ_RUN_XFER:
1.1  kiyohara 		if (debug > 1) {
1.1  kiyohara 			printf("Got req_run_xfer\n");
1.1  kiyohara 			printf("xs control: 0x%08x, timeout: %d\n",
1.1  kiyohara 			    xs->xs_control, xs->timeout);
1.1  kiyohara 			printf("opcode: 0x%02x\n", (int)xs->cmd->opcode);
1.1  kiyohara 			for (i = 0; i < 15; i++)
1.1  kiyohara 				printf("0x%02x ",(int)xs->cmd->bytes[i]);
1.1  kiyohara 			printf("\n");
1.1  kiyohara 		}
1.1  kiyohara 		if (xs->xs_control & XS_CTL_RESET) {
1.1  kiyohara 			if (debug > 1)
1.1  kiyohara 				printf("XS_CTL_RESET not support\n");
1.1  kiyohara 			break;
1.1  kiyohara 		}
1.1  kiyohara #define SBPSCSI_SBP2_MAX_CDB 12
1.1  kiyohara 		if (xs->cmdlen > SBPSCSI_SBP2_MAX_CDB) {
1.1  kiyohara 			if (debug > 0)
1.1  kiyohara 				printf(
1.1  kiyohara 				    "sbp doesn't support cdb's larger than %d "
1.1  kiyohara 				    "bytes\n", SBPSCSI_SBP2_MAX_CDB);
1.1  kiyohara 			SCSI_XFER_ERROR(xs) = XS_REQ_INVALID;
1.1  kiyohara 			SCSI_TRANSFER_DONE(xs);
1.1  kiyohara 			return;
1.1  kiyohara 		}
1.1  kiyohara 		s = splfw();
1.1  kiyohara 		sbp_action1(sbp, xs);
1.1  kiyohara 		splx(s);
1.1  kiyohara
1.1  kiyohara 		break;
1.1  kiyohara 	case ADAPTER_REQ_GROW_RESOURCES:
1.1  kiyohara 		if (debug > 1)
1.1  kiyohara 			printf("Got req_grow_resources\n");
1.1  kiyohara 		break;
1.1  kiyohara 	case ADAPTER_REQ_SET_XFER_MODE:
1.1  kiyohara 		if (debug > 1)
1.1  kiyohara 			printf("Got set xfer mode\n");
1.1  kiyohara 		break;
1.1  kiyohara 	default:
1.1  kiyohara 		panic("Unknown request: %d\n", (int)req);
1.1  kiyohara 	}
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara static void
1.1  kiyohara sbp_minphys(struct buf *bp)
1.1  kiyohara {
1.1  kiyohara 	minphys(bp);
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara CFATTACH_DECL(sbp, sizeof (struct sbp_softc),
1.1  kiyohara     sbpmatch, sbpattach, sbpdetach, NULL);
1.1  kiyohara #endif