13786Sarutz /*
23786Sarutz * CDDL HEADER START
33786Sarutz *
43786Sarutz * The contents of this file are subject to the terms of the
53786Sarutz * Common Development and Distribution License (the "License").
63786Sarutz * You may not use this file except in compliance with the License.
73786Sarutz *
83786Sarutz * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
93786Sarutz * or http://www.opensolaris.org/os/licensing.
103786Sarutz * See the License for the specific language governing permissions
113786Sarutz * and limitations under the License.
123786Sarutz *
133786Sarutz * When distributing Covered Code, include this CDDL HEADER in each
143786Sarutz * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
153786Sarutz * If applicable, add the following below this CDDL HEADER, with the
163786Sarutz * fields enclosed by brackets "[]" replaced with your own identifying
173786Sarutz * information: Portions Copyright [yyyy] [name of copyright owner]
183786Sarutz *
193786Sarutz * CDDL HEADER END
203786Sarutz */
213786Sarutz
223786Sarutz /*
23*12684STom.Erickson@Sun.COM * Copyright (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved.
243786Sarutz */
253786Sarutz
263786Sarutz
273786Sarutz /*
283786Sarutz * Direct Attached disk driver for SPARC machines.
293786Sarutz */
303786Sarutz
313786Sarutz /*
323786Sarutz * Includes, Declarations and Local Data
333786Sarutz */
343786Sarutz #include <sys/dada/dada.h>
353786Sarutz #include <sys/dkbad.h>
363786Sarutz #include <sys/dklabel.h>
373786Sarutz #include <sys/dkio.h>
383786Sarutz #include <sys/cdio.h>
393786Sarutz #include <sys/vtoc.h>
403786Sarutz #include <sys/dada/targets/daddef.h>
413786Sarutz #include <sys/dada/targets/dadpriv.h>
423786Sarutz #include <sys/file.h>
433786Sarutz #include <sys/stat.h>
443786Sarutz #include <sys/kstat.h>
453786Sarutz #include <sys/vtrace.h>
463786Sarutz #include <sys/aio_req.h>
473786Sarutz #include <sys/note.h>
483786Sarutz #include <sys/cmlb.h>
493786Sarutz
503786Sarutz /*
513786Sarutz * Global Error Levels for Error Reporting
523786Sarutz */
533786Sarutz int dcd_error_level = DCD_ERR_RETRYABLE;
543786Sarutz /*
553786Sarutz * Local Static Data
563786Sarutz */
573786Sarutz
583786Sarutz static int dcd_io_time = DCD_IO_TIME;
593786Sarutz static int dcd_retry_count = DCD_RETRY_COUNT;
603786Sarutz #ifndef lint
613786Sarutz static int dcd_report_pfa = 1;
623786Sarutz #endif
633786Sarutz static int dcd_rot_delay = 4;
643786Sarutz static int dcd_poll_busycnt = DCD_POLL_TIMEOUT;
653786Sarutz
663786Sarutz /*
673786Sarutz * Local Function Prototypes
683786Sarutz */
693786Sarutz
703786Sarutz static int dcdopen(dev_t *dev_p, int flag, int otyp, cred_t *cred_p);
713786Sarutz static int dcdclose(dev_t dev, int flag, int otyp, cred_t *cred_p);
723786Sarutz static int dcdstrategy(struct buf *bp);
733786Sarutz static int dcddump(dev_t dev, caddr_t addr, daddr_t blkno, int nblk);
743786Sarutz static int dcdioctl(dev_t, int, intptr_t, int, cred_t *, int *);
753786Sarutz static int dcdread(dev_t dev, struct uio *uio, cred_t *cred_p);
763786Sarutz static int dcdwrite(dev_t dev, struct uio *uio, cred_t *cred_p);
773786Sarutz static int dcd_prop_op(dev_t, dev_info_t *, ddi_prop_op_t, int,
783786Sarutz char *, caddr_t, int *);
793786Sarutz static int dcdaread(dev_t dev, struct aio_req *aio, cred_t *cred_p);
803786Sarutz static int dcdawrite(dev_t dev, struct aio_req *aio, cred_t *cred_p);
813786Sarutz
823786Sarutz
833786Sarutz static void dcd_free_softstate(struct dcd_disk *un, dev_info_t *devi);
843786Sarutz static int dcd_doattach(dev_info_t *devi, int (*f)());
853786Sarutz static int dcd_validate_geometry(struct dcd_disk *un);
863786Sarutz static ddi_devid_t dcd_get_devid(struct dcd_disk *un);
873786Sarutz static ddi_devid_t dcd_create_devid(struct dcd_disk *un);
883786Sarutz static int dcd_make_devid_from_serial(struct dcd_disk *un);
893786Sarutz static void dcd_validate_model_serial(char *str, int *retlen, int totallen);
903786Sarutz static int dcd_read_deviceid(struct dcd_disk *un);
913786Sarutz static int dcd_write_deviceid(struct dcd_disk *un);
923786Sarutz static int dcd_poll(struct dcd_pkt *pkt);
933786Sarutz static char *dcd_rname(int reason);
943786Sarutz static void dcd_flush_cache(struct dcd_disk *un);
953786Sarutz
963786Sarutz static int dcd_compute_dk_capacity(struct dcd_device *devp,
973786Sarutz diskaddr_t *capacity);
983786Sarutz static int dcd_send_lb_rw_cmd(dev_info_t *devinfo, void *bufaddr,
993786Sarutz diskaddr_t start_block, size_t reqlength, uchar_t cmd);
1003786Sarutz
1013786Sarutz static void dcdmin(struct buf *bp);
1023786Sarutz
1033786Sarutz static int dcdioctl_cmd(dev_t, struct udcd_cmd *,
1043786Sarutz enum uio_seg, enum uio_seg);
1053786Sarutz
1063786Sarutz static void dcdstart(struct dcd_disk *un);
1073786Sarutz static void dcddone_and_mutex_exit(struct dcd_disk *un, struct buf *bp);
1083786Sarutz static void make_dcd_cmd(struct dcd_disk *un, struct buf *bp, int (*f)());
1093786Sarutz static void dcdudcdmin(struct buf *bp);
1103786Sarutz
1113786Sarutz static int dcdrunout(caddr_t);
1123786Sarutz static int dcd_check_wp(dev_t dev);
1133786Sarutz static int dcd_unit_ready(dev_t dev);
1143786Sarutz static void dcd_handle_tran_busy(struct buf *bp, struct diskhd *dp,
1153786Sarutz struct dcd_disk *un);
1163786Sarutz static void dcdintr(struct dcd_pkt *pkt);
1173786Sarutz static int dcd_handle_incomplete(struct dcd_disk *un, struct buf *bp);
1183786Sarutz static void dcd_offline(struct dcd_disk *un, int bechatty);
1193786Sarutz static int dcd_ready_and_valid(dev_t dev, struct dcd_disk *un);
1203786Sarutz static void dcd_reset_disk(struct dcd_disk *un, struct dcd_pkt *pkt);
1213786Sarutz static void dcd_translate(struct dadkio_status32 *statp, struct udcd_cmd *cmdp);
1223786Sarutz static int dcdflushdone(struct buf *bp);
1233786Sarutz
1243786Sarutz /* Function prototypes for cmlb */
1253786Sarutz
1263786Sarutz static int dcd_lb_rdwr(dev_info_t *devi, uchar_t cmd, void *bufaddr,
1273786Sarutz diskaddr_t start_block, size_t reqlength, void *tg_cookie);
1283786Sarutz
1293786Sarutz static int dcd_lb_getphygeom(dev_info_t *devi, cmlb_geom_t *phygeomp);
1303786Sarutz static int dcd_lb_getinfo(dev_info_t *devi, int cmd, void *arg,
1313786Sarutz void *tg_cookie);
1323786Sarutz
1333786Sarutz
1343786Sarutz static cmlb_tg_ops_t dcd_lb_ops = {
1353786Sarutz TG_DK_OPS_VERSION_1,
1363786Sarutz dcd_lb_rdwr,
1373786Sarutz dcd_lb_getinfo
1383786Sarutz };
1393786Sarutz
1403786Sarutz /*
1413786Sarutz * Error and Logging Functions
1423786Sarutz */
1433786Sarutz #ifndef lint
1443786Sarutz static void clean_print(dev_info_t *dev, char *label, uint_t level,
1453786Sarutz char *title, char *data, int len);
1463786Sarutz static void dcdrestart(void *arg);
1473786Sarutz #endif /* lint */
1483786Sarutz
1493786Sarutz static int dcd_check_error(struct dcd_disk *un, struct buf *bp);
1503786Sarutz
1513786Sarutz /*
1523786Sarutz * Error statistics create/update functions
1533786Sarutz */
1543786Sarutz static int dcd_create_errstats(struct dcd_disk *, int);
1553786Sarutz
1563786Sarutz
1573786Sarutz
1583786Sarutz /*PRINTFLIKE4*/
1593786Sarutz extern void dcd_log(dev_info_t *, char *, uint_t, const char *, ...)
1603786Sarutz __KPRINTFLIKE(4);
1613786Sarutz extern void makecommand(struct dcd_pkt *, int, uchar_t, uint32_t,
1623786Sarutz uchar_t, uint32_t, uchar_t, uchar_t);
1633786Sarutz
1643786Sarutz
1653786Sarutz /*
1663786Sarutz * Configuration Routines
1673786Sarutz */
1683786Sarutz static int dcdinfo(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg,
1693786Sarutz void **result);
1703786Sarutz static int dcdprobe(dev_info_t *devi);
1713786Sarutz static int dcdattach(dev_info_t *devi, ddi_attach_cmd_t cmd);
1723786Sarutz static int dcddetach(dev_info_t *devi, ddi_detach_cmd_t cmd);
1733786Sarutz static int dcdreset(dev_info_t *dip, ddi_reset_cmd_t cmd);
1743786Sarutz static int dcd_dr_detach(dev_info_t *devi);
1753786Sarutz static int dcdpower(dev_info_t *devi, int component, int level);
1763786Sarutz
1773786Sarutz static void *dcd_state;
1783786Sarutz static int dcd_max_instance;
1793786Sarutz static char *dcd_label = "dad";
1803786Sarutz
1813786Sarutz static char *diskokay = "disk okay\n";
1823786Sarutz
1833786Sarutz #if DEBUG || lint
1843786Sarutz #define DCDDEBUG
1853786Sarutz #endif
1863786Sarutz
1873786Sarutz int dcd_test_flag = 0;
1883786Sarutz /*
1893786Sarutz * Debugging macros
1903786Sarutz */
1913786Sarutz #ifdef DCDDEBUG
1923786Sarutz static int dcddebug = 0;
1933786Sarutz #define DEBUGGING (dcddebug > 1)
1943786Sarutz #define DAD_DEBUG if (dcddebug == 1) dcd_log
1953786Sarutz #define DAD_DEBUG2 if (dcddebug > 1) dcd_log
1963786Sarutz #else /* DCDDEBUG */
1973786Sarutz #define dcddebug (0)
1983786Sarutz #define DEBUGGING (0)
1993786Sarutz #define DAD_DEBUG if (0) dcd_log
2003786Sarutz #define DAD_DEBUG2 if (0) dcd_log
2013786Sarutz #endif
2023786Sarutz
2033786Sarutz /*
2043786Sarutz * we use pkt_private area for storing bp and retry_count
2053786Sarutz * XXX: Really is this usefull.
2063786Sarutz */
2073786Sarutz struct dcd_pkt_private {
2083786Sarutz struct buf *dcdpp_bp;
2093786Sarutz short dcdpp_retry_count;
2103786Sarutz short dcdpp_victim_retry_count;
2113786Sarutz };
2123786Sarutz
2133786Sarutz
2143786Sarutz _NOTE(SCHEME_PROTECTS_DATA("Unique per pkt", dcd_pkt_private buf))
2153786Sarutz
2163786Sarutz #define PP_LEN (sizeof (struct dcd_pkt_private))
2173786Sarutz
2183786Sarutz #define PKT_SET_BP(pkt, bp) \
2193786Sarutz ((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_bp = bp
2203786Sarutz #define PKT_GET_BP(pkt) \
2213786Sarutz (((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_bp)
2223786Sarutz
2233786Sarutz
2243786Sarutz #define PKT_SET_RETRY_CNT(pkt, n) \
2253786Sarutz ((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_retry_count = n
2263786Sarutz
2273786Sarutz #define PKT_GET_RETRY_CNT(pkt) \
2283786Sarutz (((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_retry_count)
2293786Sarutz
2303786Sarutz #define PKT_INCR_RETRY_CNT(pkt, n) \
2313786Sarutz ((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_retry_count += n
2323786Sarutz
2333786Sarutz #define PKT_SET_VICTIM_RETRY_CNT(pkt, n) \
2343786Sarutz ((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_victim_retry_count \
2353786Sarutz = n
2363786Sarutz
2373786Sarutz #define PKT_GET_VICTIM_RETRY_CNT(pkt) \
2383786Sarutz (((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_victim_retry_count)
2393786Sarutz #define PKT_INCR_VICTIM_RETRY_CNT(pkt, n) \
2403786Sarutz ((struct dcd_pkt_private *)pkt->pkt_private)->dcdpp_victim_retry_count \
2413786Sarutz += n
2423786Sarutz
2433786Sarutz #define DISK_NOT_READY_RETRY_COUNT (dcd_retry_count / 2)
2443786Sarutz
2453786Sarutz
2463786Sarutz /*
2473786Sarutz * Urk!
2483786Sarutz */
2493786Sarutz #define SET_BP_ERROR(bp, err) \
2503786Sarutz bioerror(bp, err);
2513786Sarutz
2523786Sarutz #define IOSP KSTAT_IO_PTR(un->un_stats)
2533786Sarutz #define IO_PARTITION_STATS un->un_pstats[DCDPART(bp->b_edev)]
2543786Sarutz #define IOSP_PARTITION KSTAT_IO_PTR(IO_PARTITION_STATS)
2553786Sarutz
2563786Sarutz #define DCD_DO_KSTATS(un, kstat_function, bp) \
2573786Sarutz ASSERT(mutex_owned(DCD_MUTEX)); \
2583786Sarutz if (bp != un->un_sbufp) { \
2593786Sarutz if (un->un_stats) { \
2603786Sarutz kstat_function(IOSP); \
2613786Sarutz } \
2623786Sarutz if (IO_PARTITION_STATS) { \
2633786Sarutz kstat_function(IOSP_PARTITION); \
2643786Sarutz } \
2653786Sarutz }
2663786Sarutz
2673786Sarutz #define DCD_DO_ERRSTATS(un, x) \
2683786Sarutz if (un->un_errstats) { \
2693786Sarutz struct dcd_errstats *dtp; \
2703786Sarutz dtp = (struct dcd_errstats *)un->un_errstats->ks_data; \
2713786Sarutz dtp->x.value.ui32++; \
2723786Sarutz }
2733786Sarutz
2743786Sarutz #define GET_SOFT_STATE(dev) \
2753786Sarutz struct dcd_disk *un; \
2763786Sarutz int instance, part; \
2773786Sarutz minor_t minor = getminor(dev); \
2783786Sarutz \
2793786Sarutz part = minor & DCDPART_MASK; \
2803786Sarutz instance = minor >> DCDUNIT_SHIFT; \
2813786Sarutz if ((un = ddi_get_soft_state(dcd_state, instance)) == NULL) \
2823786Sarutz return (ENXIO);
2833786Sarutz
2843786Sarutz #define LOGICAL_BLOCK_ALIGN(blkno, blknoshift) \
2853786Sarutz (((blkno) & ((1 << (blknoshift)) - 1)) == 0)
2863786Sarutz
2873786Sarutz /*
2883786Sarutz * After the following number of sectors, the cylinder number spills over
2893786Sarutz * 0xFFFF if sectors = 63 and heads = 16.
2903786Sarutz */
2913786Sarutz #define NUM_SECTORS_32G 0x3EFFC10
2923786Sarutz
2933786Sarutz /*
2943786Sarutz * Configuration Data
2953786Sarutz */
2963786Sarutz
2973786Sarutz /*
2983786Sarutz * Device driver ops vector
2993786Sarutz */
3003786Sarutz
3013786Sarutz static struct cb_ops dcd_cb_ops = {
3023786Sarutz dcdopen, /* open */
3033786Sarutz dcdclose, /* close */
3043786Sarutz dcdstrategy, /* strategy */
3053786Sarutz nodev, /* print */
3063786Sarutz dcddump, /* dump */
3073786Sarutz dcdread, /* read */
3083786Sarutz dcdwrite, /* write */
3093786Sarutz dcdioctl, /* ioctl */
3103786Sarutz nodev, /* devmap */
3113786Sarutz nodev, /* mmap */
3123786Sarutz nodev, /* segmap */
3133786Sarutz nochpoll, /* poll */
3143786Sarutz dcd_prop_op, /* cb_prop_op */
3153786Sarutz 0, /* streamtab */
3163786Sarutz D_64BIT | D_MP | D_NEW, /* Driver compatibility flag */
3173786Sarutz CB_REV, /* cb_rev */
3183786Sarutz dcdaread, /* async I/O read entry point */
3193786Sarutz dcdawrite /* async I/O write entry point */
3203786Sarutz };
3213786Sarutz
3223786Sarutz static struct dev_ops dcd_ops = {
3233786Sarutz DEVO_REV, /* devo_rev, */
3243786Sarutz 0, /* refcnt */
3253786Sarutz dcdinfo, /* info */
3263786Sarutz nulldev, /* identify */
3273786Sarutz dcdprobe, /* probe */
3283786Sarutz dcdattach, /* attach */
3293786Sarutz dcddetach, /* detach */
3303786Sarutz dcdreset, /* reset */
3313786Sarutz &dcd_cb_ops, /* driver operations */
3323786Sarutz (struct bus_ops *)0, /* bus operations */
3337656SSherry.Moore@Sun.COM dcdpower, /* power */
3347656SSherry.Moore@Sun.COM ddi_quiesce_not_supported, /* devo_quiesce */
3353786Sarutz };
3363786Sarutz
3373786Sarutz
3383786Sarutz /*
3393786Sarutz * This is the loadable module wrapper.
3403786Sarutz */
3413786Sarutz #include <sys/modctl.h>
3423786Sarutz
3433786Sarutz static struct modldrv modldrv = {
3443786Sarutz &mod_driverops, /* Type of module. This one is a driver */
3457656SSherry.Moore@Sun.COM "DAD Disk Driver", /* Name of the module. */
3463786Sarutz &dcd_ops, /* driver ops */
3473786Sarutz };
3483786Sarutz
3493786Sarutz
3503786Sarutz
3513786Sarutz static struct modlinkage modlinkage = {
3523786Sarutz MODREV_1, &modldrv, NULL
3533786Sarutz };
3543786Sarutz
3553786Sarutz /*
3563786Sarutz * the dcd_attach_mutex only protects dcd_max_instance in multi-threaded
3573786Sarutz * attach situations
3583786Sarutz */
3593786Sarutz static kmutex_t dcd_attach_mutex;
3603786Sarutz
3613786Sarutz int
_init(void)3623786Sarutz _init(void)
3633786Sarutz {
3643786Sarutz int e;
3653786Sarutz
3663786Sarutz if ((e = ddi_soft_state_init(&dcd_state, sizeof (struct dcd_disk),
3673786Sarutz DCD_MAXUNIT)) != 0)
3683786Sarutz return (e);
3693786Sarutz
3703786Sarutz mutex_init(&dcd_attach_mutex, NULL, MUTEX_DRIVER, NULL);
3713786Sarutz e = mod_install(&modlinkage);
3723786Sarutz if (e != 0) {
3733786Sarutz mutex_destroy(&dcd_attach_mutex);
3743786Sarutz ddi_soft_state_fini(&dcd_state);
3753786Sarutz return (e);
3763786Sarutz }
3773786Sarutz
3783786Sarutz return (e);
3793786Sarutz }
3803786Sarutz
3813786Sarutz int
_fini(void)3823786Sarutz _fini(void)
3833786Sarutz {
3843786Sarutz int e;
3853786Sarutz
3863786Sarutz if ((e = mod_remove(&modlinkage)) != 0)
3873786Sarutz return (e);
3883786Sarutz
3893786Sarutz ddi_soft_state_fini(&dcd_state);
3903786Sarutz mutex_destroy(&dcd_attach_mutex);
3913786Sarutz
3923786Sarutz return (e);
3933786Sarutz }
3943786Sarutz
3953786Sarutz int
_info(struct modinfo * modinfop)3963786Sarutz _info(struct modinfo *modinfop)
3973786Sarutz {
3983786Sarutz
3993786Sarutz return (mod_info(&modlinkage, modinfop));
4003786Sarutz }
4013786Sarutz
4023786Sarutz static int
dcdprobe(dev_info_t * devi)4033786Sarutz dcdprobe(dev_info_t *devi)
4043786Sarutz {
4053786Sarutz struct dcd_device *devp;
4063786Sarutz int rval = DDI_PROBE_PARTIAL;
4073786Sarutz int instance;
4083786Sarutz
4093786Sarutz devp = ddi_get_driver_private(devi);
4103786Sarutz instance = ddi_get_instance(devi);
4113786Sarutz
4123786Sarutz /*
4133786Sarutz * Keep a count of how many disks (ie. highest instance no) we have
4143786Sarutz * XXX currently not used but maybe useful later again
4153786Sarutz */
4163786Sarutz mutex_enter(&dcd_attach_mutex);
4173786Sarutz if (instance > dcd_max_instance)
4183786Sarutz dcd_max_instance = instance;
4193786Sarutz mutex_exit(&dcd_attach_mutex);
4203786Sarutz
4217224Scth DAD_DEBUG2(devp->dcd_dev, dcd_label, DCD_DEBUG, "dcdprobe:\n");
4223786Sarutz
4233786Sarutz if (ddi_get_soft_state(dcd_state, instance) != NULL)
4243786Sarutz return (DDI_PROBE_PARTIAL);
4253786Sarutz
4263786Sarutz /*
4273786Sarutz * Turn around and call utility probe routine
4283786Sarutz * to see whether we actually have a disk at
4293786Sarutz */
4303786Sarutz
4313786Sarutz DAD_DEBUG2(devp->dcd_dev, dcd_label, DCD_DEBUG,
4323786Sarutz "dcdprobe: %x\n", dcd_probe(devp, NULL_FUNC));
4333786Sarutz
4343786Sarutz switch (dcd_probe(devp, NULL_FUNC)) {
4353786Sarutz default:
4363786Sarutz case DCDPROBE_NORESP:
4373786Sarutz case DCDPROBE_NONCCS:
4383786Sarutz case DCDPROBE_NOMEM:
4393786Sarutz case DCDPROBE_FAILURE:
4403786Sarutz case DCDPROBE_BUSY:
4413786Sarutz break;
4423786Sarutz
4433786Sarutz case DCDPROBE_EXISTS:
4443786Sarutz /*
4453786Sarutz * Check whether it is a ATA device and then
4463786Sarutz * return SUCCESS.
4473786Sarutz */
4483786Sarutz DAD_DEBUG2(devp->dcd_dev, dcd_label, DCD_DEBUG,
4493786Sarutz "config %x\n", devp->dcd_ident->dcd_config);
4503786Sarutz if ((devp->dcd_ident->dcd_config & ATAPI_DEVICE) == 0) {
4513786Sarutz if (devp->dcd_ident->dcd_config & ATANON_REMOVABLE) {
4523786Sarutz rval = DDI_PROBE_SUCCESS;
4533786Sarutz } else
4543786Sarutz rval = DDI_PROBE_FAILURE;
4553786Sarutz } else {
4563786Sarutz rval = DDI_PROBE_FAILURE;
4573786Sarutz }
4583786Sarutz break;
4593786Sarutz }
4603786Sarutz dcd_unprobe(devp);
4613786Sarutz
4623786Sarutz DAD_DEBUG2(devp->dcd_dev, dcd_label, DCD_DEBUG,
4633786Sarutz "dcdprobe returns %x\n", rval);
4643786Sarutz
4653786Sarutz return (rval);
4663786Sarutz }
4673786Sarutz
4683786Sarutz
4693786Sarutz /*ARGSUSED*/
4703786Sarutz static int
dcdattach(dev_info_t * devi,ddi_attach_cmd_t cmd)4713786Sarutz dcdattach(dev_info_t *devi, ddi_attach_cmd_t cmd)
4723786Sarutz {
4733786Sarutz int instance, rval;
4743786Sarutz struct dcd_device *devp;
4753786Sarutz struct dcd_disk *un;
4763786Sarutz struct diskhd *dp;
4773786Sarutz char *pm_comp[] =
4783786Sarutz { "NAME=ide-disk", "0=standby", "1=idle", "2=active" };
4793786Sarutz
4803786Sarutz /* CONSTCOND */
4813786Sarutz ASSERT(NO_COMPETING_THREADS);
4823786Sarutz
4833786Sarutz
4843786Sarutz devp = ddi_get_driver_private(devi);
4853786Sarutz instance = ddi_get_instance(devi);
4863786Sarutz DAD_DEBUG2(devp->dcd_dev, dcd_label, DCD_DEBUG, "Attach Started\n");
4873786Sarutz
4883786Sarutz switch (cmd) {
4893786Sarutz case DDI_ATTACH:
4903786Sarutz break;
4913786Sarutz
4923786Sarutz case DDI_RESUME:
4933786Sarutz if (!(un = ddi_get_soft_state(dcd_state, instance)))
4943786Sarutz return (DDI_FAILURE);
4953786Sarutz mutex_enter(DCD_MUTEX);
4963786Sarutz Restore_state(un);
4973786Sarutz /*
4983786Sarutz * Restore the state which was saved to give the
4993786Sarutz * the right state in un_last_state
5003786Sarutz */
5013786Sarutz un->un_last_state = un->un_save_state;
5023786Sarutz un->un_throttle = 2;
5033786Sarutz cv_broadcast(&un->un_suspend_cv);
5043786Sarutz /*
5053786Sarutz * Raise the power level of the device to active.
5063786Sarutz */
5073786Sarutz mutex_exit(DCD_MUTEX);
5083786Sarutz (void) pm_raise_power(DCD_DEVINFO, 0, DCD_DEVICE_ACTIVE);
5093786Sarutz mutex_enter(DCD_MUTEX);
5103786Sarutz
5113786Sarutz /*
5123786Sarutz * start unit - if this is a low-activity device
5133786Sarutz * commands in queue will have to wait until new
5143786Sarutz * commands come in, which may take awhile.
5153786Sarutz * Also, we specifically don't check un_ncmds
5163786Sarutz * because we know that there really are no
5173786Sarutz * commands in progress after the unit was suspended
5183786Sarutz * and we could have reached the throttle level, been
5193786Sarutz * suspended, and have no new commands coming in for
5203786Sarutz * awhile. Highly unlikely, but so is the low-
5213786Sarutz * activity disk scenario.
5223786Sarutz */
5233786Sarutz dp = &un->un_utab;
5243786Sarutz if (dp->b_actf && (dp->b_forw == NULL)) {
5253786Sarutz dcdstart(un);
5263786Sarutz }
5273786Sarutz
5283786Sarutz mutex_exit(DCD_MUTEX);
5293786Sarutz return (DDI_SUCCESS);
5303786Sarutz
5313786Sarutz default:
5323786Sarutz return (DDI_FAILURE);
5333786Sarutz }
5343786Sarutz
5353786Sarutz if (dcd_doattach(devi, SLEEP_FUNC) == DDI_FAILURE) {
5363786Sarutz return (DDI_FAILURE);
5373786Sarutz }
5383786Sarutz
5393786Sarutz if (!(un = (struct dcd_disk *)
5403786Sarutz ddi_get_soft_state(dcd_state, instance))) {
5413786Sarutz return (DDI_FAILURE);
5423786Sarutz }
5433786Sarutz devp->dcd_private = (ataopaque_t)un;
5443786Sarutz
5453786Sarutz /*
5463786Sarutz * Add a zero-length attribute to tell the world we support
5473786Sarutz * kernel ioctls (for layered drivers)
5483786Sarutz */
5493786Sarutz (void) ddi_prop_create(DDI_DEV_T_NONE, devi, DDI_PROP_CANSLEEP,
5503786Sarutz DDI_KERNEL_IOCTL, NULL, 0);
5513786Sarutz
5523786Sarutz /*
5533786Sarutz * Since the dad device does not have the 'reg' property,
5543786Sarutz * cpr will not call its DDI_SUSPEND/DDI_RESUME entries.
5553786Sarutz * The following code is to tell cpr that this device
5563786Sarutz * does need to be suspended and resumed.
5573786Sarutz */
5583786Sarutz (void) ddi_prop_update_string(DDI_DEV_T_NONE, devi,
5593786Sarutz "pm-hardware-state", (caddr_t)"needs-suspend-resume");
5603786Sarutz
5613786Sarutz /*
5623786Sarutz * Initialize power management bookkeeping;
5633786Sarutz * Create components - In IDE case there are 3 levels and one
5643786Sarutz * component. The levels being - active, idle, standby.
5653786Sarutz */
5663786Sarutz
5673786Sarutz rval = ddi_prop_update_string_array(DDI_DEV_T_NONE,
5683786Sarutz devi, "pm-components", pm_comp, 4);
5693786Sarutz if (rval == DDI_PROP_SUCCESS) {
5703786Sarutz /*
5713786Sarutz * Ignore the return value of pm_raise_power
5723786Sarutz * Even if we check the return values and
5733786Sarutz * remove the property created above, PM
5743786Sarutz * framework will not honour the change after
5753786Sarutz * first call to pm_raise_power. Hence, the
5763786Sarutz * removal of that property does not help if
5773786Sarutz * pm_raise_power fails.
5783786Sarutz */
5793786Sarutz (void) pm_raise_power(DCD_DEVINFO, 0, DCD_DEVICE_ACTIVE);
5803786Sarutz }
5813786Sarutz
5823786Sarutz ddi_report_dev(devi);
5833786Sarutz
5843786Sarutz cmlb_alloc_handle(&un->un_dklbhandle);
5853786Sarutz
5863786Sarutz if (cmlb_attach(devi,
5877224Scth &dcd_lb_ops,
5887224Scth 0,
5898863SEdward.Pilatowicz@Sun.COM B_FALSE,
5908863SEdward.Pilatowicz@Sun.COM B_FALSE,
5917224Scth DDI_NT_BLOCK_CHAN,
5927224Scth CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8,
5937224Scth un->un_dklbhandle,
5947224Scth 0) != 0) {
5953786Sarutz cmlb_free_handle(&un->un_dklbhandle);
5963786Sarutz dcd_free_softstate(un, devi);
5973786Sarutz return (DDI_FAILURE);
5983786Sarutz }
5993786Sarutz
6003786Sarutz mutex_enter(DCD_MUTEX);
6013786Sarutz (void) dcd_validate_geometry(un);
6023786Sarutz
6033786Sarutz /* Get devid; create a devid ONLY IF could not get ID */
6043786Sarutz if (dcd_get_devid(un) == NULL) {
6053786Sarutz /* Create the fab'd devid */
6063786Sarutz (void) dcd_create_devid(un);
6073786Sarutz }
6083786Sarutz mutex_exit(DCD_MUTEX);
6093786Sarutz
6103786Sarutz return (DDI_SUCCESS);
6113786Sarutz }
6123786Sarutz
6133786Sarutz static void
dcd_free_softstate(struct dcd_disk * un,dev_info_t * devi)6143786Sarutz dcd_free_softstate(struct dcd_disk *un, dev_info_t *devi)
6153786Sarutz {
6163786Sarutz struct dcd_device *devp;
6173786Sarutz int instance = ddi_get_instance(devi);
6183786Sarutz
6193786Sarutz devp = ddi_get_driver_private(devi);
6203786Sarutz
6213786Sarutz if (un) {
6223786Sarutz sema_destroy(&un->un_semoclose);
6233786Sarutz cv_destroy(&un->un_sbuf_cv);
6243786Sarutz cv_destroy(&un->un_state_cv);
6253786Sarutz cv_destroy(&un->un_disk_busy_cv);
6263786Sarutz cv_destroy(&un->un_suspend_cv);
6273786Sarutz
6283786Sarutz /*
6293786Sarutz * Deallocate command packet resources.
6303786Sarutz */
6313786Sarutz if (un->un_sbufp)
6323786Sarutz freerbuf(un->un_sbufp);
6333786Sarutz if (un->un_dp) {
6343786Sarutz kmem_free((caddr_t)un->un_dp, sizeof (*un->un_dp));
6353786Sarutz }
6363786Sarutz /*
6373786Sarutz * Unregister the devid and free devid resources allocated
6383786Sarutz */
6393786Sarutz ddi_devid_unregister(DCD_DEVINFO);
6403786Sarutz if (un->un_devid) {
6413786Sarutz ddi_devid_free(un->un_devid);
6423786Sarutz un->un_devid = NULL;
6433786Sarutz }
6443786Sarutz
6453786Sarutz /*
6463786Sarutz * Delete kstats. Kstats for non CD devices are deleted
6473786Sarutz * in dcdclose.
6483786Sarutz */
6493786Sarutz if (un->un_stats) {
6503786Sarutz kstat_delete(un->un_stats);
6513786Sarutz }
6523786Sarutz
6533786Sarutz }
6543786Sarutz
6553786Sarutz /*
6563786Sarutz * Cleanup scsi_device resources.
6573786Sarutz */
6583786Sarutz ddi_soft_state_free(dcd_state, instance);
6593786Sarutz devp->dcd_private = (ataopaque_t)0;
6603786Sarutz /* unprobe scsi device */
6613786Sarutz dcd_unprobe(devp);
6623786Sarutz
6633786Sarutz /* Remove properties created during attach */
6643786Sarutz ddi_prop_remove_all(devi);
6653786Sarutz }
6663786Sarutz
6673786Sarutz static int
dcddetach(dev_info_t * devi,ddi_detach_cmd_t cmd)6683786Sarutz dcddetach(dev_info_t *devi, ddi_detach_cmd_t cmd)
6693786Sarutz {
6703786Sarutz int instance;
6713786Sarutz struct dcd_disk *un;
6723786Sarutz clock_t wait_cmds_complete;
6733786Sarutz instance = ddi_get_instance(devi);
6743786Sarutz
6753786Sarutz if (!(un = ddi_get_soft_state(dcd_state, instance)))
6763786Sarutz return (DDI_FAILURE);
6773786Sarutz
6783786Sarutz switch (cmd) {
6793786Sarutz case DDI_DETACH:
6803786Sarutz return (dcd_dr_detach(devi));
6813786Sarutz
6823786Sarutz case DDI_SUSPEND:
6833786Sarutz mutex_enter(DCD_MUTEX);
6843786Sarutz if (un->un_state == DCD_STATE_SUSPENDED) {
6853786Sarutz mutex_exit(DCD_MUTEX);
6863786Sarutz return (DDI_SUCCESS);
6873786Sarutz }
6883786Sarutz un->un_throttle = 0;
6893786Sarutz /*
6903786Sarutz * Save the last state first
6913786Sarutz */
6923786Sarutz un->un_save_state = un->un_last_state;
6933786Sarutz
6943786Sarutz New_state(un, DCD_STATE_SUSPENDED);
6953786Sarutz
6963786Sarutz /*
6973786Sarutz * wait till current operation completed. If we are
6983786Sarutz * in the resource wait state (with an intr outstanding)
6993786Sarutz * then we need to wait till the intr completes and
7003786Sarutz * starts the next cmd. We wait for
7013786Sarutz * DCD_WAIT_CMDS_COMPLETE seconds before failing the
7023786Sarutz * DDI_SUSPEND.
7033786Sarutz */
7043786Sarutz wait_cmds_complete = ddi_get_lbolt();
7053786Sarutz wait_cmds_complete +=
7067224Scth DCD_WAIT_CMDS_COMPLETE * drv_usectohz(1000000);
7073786Sarutz
7083786Sarutz while (un->un_ncmds) {
7093786Sarutz if (cv_timedwait(&un->un_disk_busy_cv,
7103786Sarutz DCD_MUTEX, wait_cmds_complete) == -1) {
7113786Sarutz /*
7123786Sarutz * commands Didn't finish in the
7133786Sarutz * specified time, fail the DDI_SUSPEND.
7143786Sarutz */
7153786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label,
7163786Sarutz DCD_DEBUG, "dcddetach: SUSPEND "
7173786Sarutz "failed due to outstanding cmds\n");
7183786Sarutz Restore_state(un);
7193786Sarutz mutex_exit(DCD_MUTEX);
7203786Sarutz return (DDI_FAILURE);
7213786Sarutz }
7223786Sarutz }
7233786Sarutz mutex_exit(DCD_MUTEX);
7243786Sarutz return (DDI_SUCCESS);
7253786Sarutz }
7263786Sarutz return (DDI_FAILURE);
7273786Sarutz }
7283786Sarutz
7293786Sarutz /*
7303786Sarutz * The reset entry point gets invoked at the system shutdown time or through
7313786Sarutz * CPR code at system suspend.
7323786Sarutz * Will be flushing the cache and expect this to be last I/O operation to the
7333786Sarutz * disk before system reset/power off.
7343786Sarutz */
7353786Sarutz /*ARGSUSED*/
7363786Sarutz static int
dcdreset(dev_info_t * dip,ddi_reset_cmd_t cmd)7373786Sarutz dcdreset(dev_info_t *dip, ddi_reset_cmd_t cmd)
7383786Sarutz {
7393786Sarutz struct dcd_disk *un;
7403786Sarutz int instance;
7413786Sarutz
7423786Sarutz instance = ddi_get_instance(dip);
7433786Sarutz
7443786Sarutz if (!(un = ddi_get_soft_state(dcd_state, instance)))
7453786Sarutz return (DDI_FAILURE);
7463786Sarutz
7473786Sarutz dcd_flush_cache(un);
7483786Sarutz
7493786Sarutz return (DDI_SUCCESS);
7503786Sarutz }
7513786Sarutz
7523786Sarutz
7533786Sarutz static int
dcd_dr_detach(dev_info_t * devi)7543786Sarutz dcd_dr_detach(dev_info_t *devi)
7553786Sarutz {
7563786Sarutz struct dcd_device *devp;
7573786Sarutz struct dcd_disk *un;
7583786Sarutz
7593786Sarutz /*
7603786Sarutz * Get scsi_device structure for this instance.
7613786Sarutz */
7623786Sarutz if ((devp = ddi_get_driver_private(devi)) == NULL)
7633786Sarutz return (DDI_FAILURE);
7643786Sarutz
7653786Sarutz /*
7663786Sarutz * Get dcd_disk structure containing target 'private' information
7673786Sarutz */
7683786Sarutz un = (struct dcd_disk *)devp->dcd_private;
7693786Sarutz
7703786Sarutz /*
7713786Sarutz * Verify there are NO outstanding commands issued to this device.
7723786Sarutz * ie, un_ncmds == 0.
7733786Sarutz * It's possible to have outstanding commands through the physio
7743786Sarutz * code path, even though everything's closed.
7753786Sarutz */
7763786Sarutz #ifndef lint
7773786Sarutz _NOTE(COMPETING_THREADS_NOW);
7783786Sarutz #endif
7793786Sarutz mutex_enter(DCD_MUTEX);
7803786Sarutz if (un->un_ncmds) {
7813786Sarutz mutex_exit(DCD_MUTEX);
7823786Sarutz _NOTE(NO_COMPETING_THREADS_NOW);
7833786Sarutz return (DDI_FAILURE);
7843786Sarutz }
7853786Sarutz
7863786Sarutz mutex_exit(DCD_MUTEX);
7873786Sarutz
7883786Sarutz cmlb_detach(un->un_dklbhandle, 0);
7893786Sarutz cmlb_free_handle(&un->un_dklbhandle);
7903786Sarutz
7913786Sarutz
7923786Sarutz /*
7933786Sarutz * Lower the power state of the device
7943786Sarutz * i.e. the minimum power consumption state - sleep.
7953786Sarutz */
7963786Sarutz (void) pm_lower_power(DCD_DEVINFO, 0, DCD_DEVICE_STANDBY);
7973786Sarutz
7983786Sarutz _NOTE(NO_COMPETING_THREADS_NOW);
7993786Sarutz
8003786Sarutz /*
8013786Sarutz * at this point there are no competing threads anymore
8023786Sarutz * release active MT locks and all device resources.
8033786Sarutz */
8043786Sarutz dcd_free_softstate(un, devi);
8053786Sarutz
8063786Sarutz return (DDI_SUCCESS);
8073786Sarutz }
8083786Sarutz
8093786Sarutz static int
dcdpower(dev_info_t * devi,int component,int level)8103786Sarutz dcdpower(dev_info_t *devi, int component, int level)
8113786Sarutz {
8123786Sarutz struct dcd_pkt *pkt;
8133786Sarutz struct dcd_disk *un;
8143786Sarutz int instance;
8153786Sarutz uchar_t cmd;
8163786Sarutz
8173786Sarutz
8183786Sarutz instance = ddi_get_instance(devi);
8193786Sarutz
8203786Sarutz if (!(un = ddi_get_soft_state(dcd_state, instance)) ||
8217224Scth (DCD_DEVICE_STANDBY > level) || (level > DCD_DEVICE_ACTIVE) ||
8227224Scth component != 0) {
8233786Sarutz return (DDI_FAILURE);
8243786Sarutz }
8253786Sarutz
8263786Sarutz mutex_enter(DCD_MUTEX);
8273786Sarutz /*
8283786Sarutz * if there are active commands for the device or device will be
8293786Sarutz * active soon. At the same time there is request to lower power
8303786Sarutz * return failure.
8313786Sarutz */
8323786Sarutz if ((un->un_ncmds) && (level != DCD_DEVICE_ACTIVE)) {
8333786Sarutz mutex_exit(DCD_MUTEX);
8343786Sarutz return (DDI_FAILURE);
8353786Sarutz }
8363786Sarutz
8373786Sarutz if ((un->un_state == DCD_STATE_OFFLINE) ||
8383786Sarutz (un->un_state == DCD_STATE_FATAL)) {
8393786Sarutz mutex_exit(DCD_MUTEX);
8403786Sarutz return (DDI_FAILURE);
8413786Sarutz }
8423786Sarutz
8433786Sarutz if (level == DCD_DEVICE_ACTIVE) {
8443786Sarutz /*
8453786Sarutz * No need to fire any command, just set the state structure
8463786Sarutz * to indicate previous state and set the level to active
8473786Sarutz */
8483786Sarutz un->un_power_level = DCD_DEVICE_ACTIVE;
8493786Sarutz if (un->un_state == DCD_STATE_PM_SUSPENDED)
8503786Sarutz Restore_state(un);
8513786Sarutz mutex_exit(DCD_MUTEX);
8523786Sarutz } else {
8533786Sarutz pkt = dcd_init_pkt(ROUTE, (struct dcd_pkt *)NULL,
8543786Sarutz NULL, (uint32_t)sizeof (struct dcd_cmd), 2, PP_LEN,
8553786Sarutz PKT_CONSISTENT, NULL_FUNC, NULL);
8563786Sarutz
8573786Sarutz if (pkt == (struct dcd_pkt *)NULL) {
8583786Sarutz mutex_exit(DCD_MUTEX);
8593786Sarutz return (DDI_FAILURE);
8603786Sarutz }
8613786Sarutz
8623786Sarutz switch (level) {
8633786Sarutz case DCD_DEVICE_IDLE:
8643786Sarutz cmd = ATA_IDLE_IMMEDIATE;
8653786Sarutz break;
8663786Sarutz
8673786Sarutz case DCD_DEVICE_STANDBY:
8683786Sarutz cmd = ATA_STANDBY_IMMEDIATE;
8693786Sarutz break;
8703786Sarutz }
8713786Sarutz
8723786Sarutz makecommand(pkt, 0, cmd, 0, 0, 0, NO_DATA_XFER, 0);
8733786Sarutz mutex_exit(DCD_MUTEX);
8743786Sarutz /*
8753786Sarutz * Issue the appropriate command
8763786Sarutz */
8773786Sarutz if ((dcd_poll(pkt)) || (SCBP_C(pkt) != STATUS_GOOD)) {
8783786Sarutz dcd_destroy_pkt(pkt);
8793786Sarutz return (DDI_FAILURE);
8803786Sarutz }
8813786Sarutz dcd_destroy_pkt(pkt);
8823786Sarutz mutex_enter(DCD_MUTEX);
8833786Sarutz if (un->un_state != DCD_STATE_PM_SUSPENDED)
8843786Sarutz New_state(un, DCD_STATE_PM_SUSPENDED);
8853786Sarutz un->un_power_level = level;
8863786Sarutz mutex_exit(DCD_MUTEX);
8873786Sarutz }
8883786Sarutz
8893786Sarutz return (DDI_SUCCESS);
8903786Sarutz }
8913786Sarutz
8923786Sarutz static int
dcd_doattach(dev_info_t * devi,int (* canwait)())8933786Sarutz dcd_doattach(dev_info_t *devi, int (*canwait)())
8943786Sarutz {
8953786Sarutz struct dcd_device *devp;
8963786Sarutz struct dcd_disk *un = (struct dcd_disk *)0;
8973786Sarutz int instance;
8983786Sarutz int km_flags = (canwait != NULL_FUNC)? KM_SLEEP : KM_NOSLEEP;
8993786Sarutz int rval;
9003786Sarutz char *prop_template = "target%x-dcd-options";
9013786Sarutz int options;
9023786Sarutz char prop_str[32];
9033786Sarutz int target;
9043786Sarutz diskaddr_t capacity;
9053786Sarutz
9063786Sarutz devp = ddi_get_driver_private(devi);
9073786Sarutz
9083786Sarutz /*
9093786Sarutz * Call the routine scsi_probe to do some of the dirty work.
9103786Sarutz * If the INQUIRY command succeeds, the field dcd_inq in the
9113786Sarutz * device structure will be filled in. The dcd_sense structure
9123786Sarutz * will also be allocated.
9133786Sarutz */
9143786Sarutz
9153786Sarutz switch (dcd_probe(devp, canwait)) {
9163786Sarutz default:
9173786Sarutz return (DDI_FAILURE);
9183786Sarutz
9193786Sarutz case DCDPROBE_EXISTS:
9203786Sarutz if ((devp->dcd_ident->dcd_config & ATAPI_DEVICE) == 0) {
9213786Sarutz if (devp->dcd_ident->dcd_config & ATANON_REMOVABLE) {
9223786Sarutz rval = DDI_SUCCESS;
9233786Sarutz } else {
9243786Sarutz rval = DDI_FAILURE;
9253786Sarutz goto error;
9263786Sarutz }
9273786Sarutz } else {
9283786Sarutz rval = DDI_FAILURE;
9293786Sarutz goto error;
9303786Sarutz }
9313786Sarutz }
9323786Sarutz
9333786Sarutz
9343786Sarutz instance = ddi_get_instance(devp->dcd_dev);
9353786Sarutz
9363786Sarutz if (ddi_soft_state_zalloc(dcd_state, instance) != DDI_SUCCESS) {
9373786Sarutz rval = DDI_FAILURE;
9383786Sarutz goto error;
9393786Sarutz }
9403786Sarutz
9413786Sarutz un = ddi_get_soft_state(dcd_state, instance);
9423786Sarutz
9433786Sarutz un->un_sbufp = getrbuf(km_flags);
9443786Sarutz if (un->un_sbufp == (struct buf *)NULL) {
9453786Sarutz rval = DDI_FAILURE;
9463786Sarutz goto error;
9473786Sarutz }
9483786Sarutz
9493786Sarutz
9503786Sarutz un->un_dcd = devp;
9513786Sarutz un->un_power_level = -1;
9523786Sarutz un->un_tgattribute.media_is_writable = 1;
9533786Sarutz
9543786Sarutz sema_init(&un->un_semoclose, 1, NULL, SEMA_DRIVER, NULL);
9553786Sarutz cv_init(&un->un_sbuf_cv, NULL, CV_DRIVER, NULL);
9563786Sarutz cv_init(&un->un_state_cv, NULL, CV_DRIVER, NULL);
9573786Sarutz /* Initialize power management conditional variable */
9583786Sarutz cv_init(&un->un_disk_busy_cv, NULL, CV_DRIVER, NULL);
9593786Sarutz cv_init(&un->un_suspend_cv, NULL, CV_DRIVER, NULL);
9603786Sarutz
9613786Sarutz if (un->un_dp == 0) {
9623786Sarutz /*
9633786Sarutz * Assume CCS drive, assume parity, but call
9643786Sarutz * it a CDROM if it is a RODIRECT device.
9653786Sarutz */
9663786Sarutz un->un_dp = (struct dcd_drivetype *)
9673786Sarutz kmem_zalloc(sizeof (struct dcd_drivetype), km_flags);
9683786Sarutz if (!un->un_dp) {
9693786Sarutz rval = DDI_FAILURE;
9703786Sarutz goto error;
9713786Sarutz }
9723786Sarutz if ((devp->dcd_ident->dcd_config & ATAPI_DEVICE) == 0) {
9733786Sarutz if (devp->dcd_ident->dcd_config & ATANON_REMOVABLE) {
9743786Sarutz un->un_dp->ctype = CTYPE_DISK;
9753786Sarutz }
9763786Sarutz } else {
9773786Sarutz rval = DDI_FAILURE;
9783786Sarutz goto error;
9793786Sarutz }
9803786Sarutz un->un_dp->name = "CCS";
9813786Sarutz un->un_dp->options = 0;
9823786Sarutz }
9833786Sarutz
9843786Sarutz /*
9853786Sarutz * Allow I/O requests at un_secsize offset in multiple of un_secsize.
9863786Sarutz */
9873786Sarutz un->un_secsize = DEV_BSIZE;
9883786Sarutz
9893786Sarutz /*
9903786Sarutz * If the device is not a removable media device, make sure that
9913786Sarutz * that the device is ready, by issuing the another identify but
9923786Sarutz * not needed. Get the capacity from identify data and store here.
9933786Sarutz */
9943786Sarutz if (dcd_compute_dk_capacity(devp, &capacity) == 0) {
9953786Sarutz un->un_diskcapacity = capacity;
9963786Sarutz un->un_lbasize = DEV_BSIZE;
9973786Sarutz }
9983786Sarutz
9993786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "Geometry Data\n");
10003786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "cyls %x, heads %x",
10013786Sarutz devp->dcd_ident->dcd_fixcyls,
10023786Sarutz devp->dcd_ident->dcd_heads);
10033786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "sectors %x,",
10043786Sarutz devp->dcd_ident->dcd_sectors);
10053786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "capacity %llx\n",
10063786Sarutz capacity);
10073786Sarutz
10083786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
10093786Sarutz "dcdprobe: drive selected\n");
10103786Sarutz
10113786Sarutz /*
10123786Sarutz * Check for the property target<n>-dcd-options to find the option
10133786Sarutz * set by the HBA driver for this target so that we can set the
10143786Sarutz * Unit structure variable so that we can send commands accordingly.
10153786Sarutz */
10167875SChris.Horne@Sun.COM target = devp->dcd_address->da_target;
10173786Sarutz (void) sprintf(prop_str, prop_template, target);
10183786Sarutz options = ddi_prop_get_int(DDI_DEV_T_ANY, devi, DDI_PROP_NOTPROM,
10193786Sarutz prop_str, -1);
10203786Sarutz if (options < 0) {
10213786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
10223786Sarutz "No per target properties");
10233786Sarutz } else {
10243786Sarutz if ((options & DCD_DMA_MODE) == DCD_DMA_MODE) {
10253786Sarutz un->un_dp->options |= DMA_SUPPORTTED;
10263786Sarutz un->un_dp->dma_mode = (options >> 3) & 0x03;
10273786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
10283786Sarutz "mode %x\n", un->un_dp->dma_mode);
10293786Sarutz } else {
10303786Sarutz un->un_dp->options &= ~DMA_SUPPORTTED;
10313786Sarutz un->un_dp->pio_mode = options & 0x7;
10323786Sarutz if (options & DCD_BLOCK_MODE)
10333786Sarutz un->un_dp->options |= BLOCK_MODE;
10343786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
10353786Sarutz "mode %x\n", un->un_dp->pio_mode);
10363786Sarutz }
10373786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
10383786Sarutz "options %x,", un->un_dp->options);
10393786Sarutz }
10403786Sarutz
10413786Sarutz un->un_throttle = 2;
10423786Sarutz /*
10433786Sarutz * set default max_xfer_size - This should depend on whether the
10443786Sarutz * Block mode is supported by the device or not.
10453786Sarutz */
10463786Sarutz un->un_max_xfer_size = MAX_ATA_XFER_SIZE;
10473786Sarutz
10483786Sarutz /*
10493786Sarutz * Set write cache enable softstate
10503786Sarutz *
10513786Sarutz * WCE is only supported in ATAPI-4 or higher; for
10523786Sarutz * lower rev devices, must assume write cache is
10533786Sarutz * enabled.
10543786Sarutz */
10553786Sarutz mutex_enter(DCD_MUTEX);
10563786Sarutz un->un_write_cache_enabled = (devp->dcd_ident->dcd_majvers == 0xffff) ||
10573786Sarutz ((devp->dcd_ident->dcd_majvers & IDENTIFY_80_ATAPI_4) == 0) ||
10583786Sarutz (devp->dcd_ident->dcd_features85 & IDENTIFY_85_WCE) != 0;
10593786Sarutz mutex_exit(DCD_MUTEX);
10603786Sarutz
10613786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
10623786Sarutz "dcd_doattach returns good\n");
10633786Sarutz
10643786Sarutz return (rval);
10653786Sarutz
10663786Sarutz error:
10673786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "dcd_doattach failed\n");
10683786Sarutz dcd_free_softstate(un, devi);
10693786Sarutz return (rval);
10703786Sarutz }
10713786Sarutz
10723786Sarutz #ifdef NOTNEEDED
10733786Sarutz /*
10743786Sarutz * This routine is used to set the block mode of operation by issuing the
10753786Sarutz * Set Block mode ata command with the maximum block mode possible
10763786Sarutz */
dcd_set_multiple(struct dcd_disk * un)10773786Sarutz dcd_set_multiple(struct dcd_disk *un)
10783786Sarutz {
10793786Sarutz int status;
10803786Sarutz struct udcd_cmd ucmd;
10813786Sarutz struct dcd_cmd cdb;
10823786Sarutz dev_t dev;
10833786Sarutz
10843786Sarutz
10853786Sarutz /* Zero all the required structure */
10863786Sarutz (void) bzero((caddr_t)&ucmd, sizeof (ucmd));
10873786Sarutz
10883786Sarutz (void) bzero((caddr_t)&cdb, sizeof (struct dcd_cmd));
10893786Sarutz
10903786Sarutz cdb.cmd = ATA_SET_MULTIPLE;
10913786Sarutz /*
10923786Sarutz * Here we should pass what needs to go into sector count REGISTER.
10933786Sarutz * Eventhough this field indicates the number of bytes to read we
10943786Sarutz * need to specify the block factor in terms of bytes so that it
10953786Sarutz * will be programmed by the HBA driver into the sector count register.
10963786Sarutz */
10973786Sarutz cdb.size = un->un_lbasize * un->un_dp->block_factor;
10983786Sarutz
10993786Sarutz cdb.sector_num.lba_num = 0;
11003786Sarutz cdb.address_mode = ADD_LBA_MODE;
11013786Sarutz cdb.direction = NO_DATA_XFER;
11023786Sarutz
11033786Sarutz ucmd.udcd_flags = 0;
11043786Sarutz ucmd.udcd_cmd = &cdb;
11053786Sarutz ucmd.udcd_bufaddr = NULL;
11063786Sarutz ucmd.udcd_buflen = 0;
11073786Sarutz ucmd.udcd_flags |= UDCD_SILENT;
11083786Sarutz
11093786Sarutz dev = makedevice(ddi_driver_major(DCD_DEVINFO),
11103786Sarutz ddi_get_instance(DCD_DEVINFO) << DCDUNIT_SHIFT);
11113786Sarutz
11123786Sarutz
11133786Sarutz status = dcdioctl_cmd(dev, &ucmd, UIO_SYSSPACE, UIO_SYSSPACE);
11143786Sarutz
11153786Sarutz return (status);
11163786Sarutz }
11173786Sarutz /*
11183786Sarutz * The following routine is used only for setting the transfer mode
11193786Sarutz * and it is not designed for transferring any other features subcommand.
11203786Sarutz */
dcd_set_features(struct dcd_disk * un,uchar_t mode)11213786Sarutz dcd_set_features(struct dcd_disk *un, uchar_t mode)
11223786Sarutz {
11233786Sarutz int status;
11243786Sarutz struct udcd_cmd ucmd;
11253786Sarutz struct dcd_cmd cdb;
11263786Sarutz dev_t dev;
11273786Sarutz
11283786Sarutz
11293786Sarutz /* Zero all the required structure */
11303786Sarutz (void) bzero((caddr_t)&ucmd, sizeof (ucmd));
11313786Sarutz
11323786Sarutz (void) bzero((caddr_t)&cdb, sizeof (struct dcd_cmd));
11333786Sarutz
11343786Sarutz cdb.cmd = ATA_SET_FEATURES;
11353786Sarutz /*
11363786Sarutz * Here we need to pass what needs to go into the sector count register
11373786Sarutz * But in the case of SET FEATURES command the value taken in the
11383786Sarutz * sector count register depends what type of subcommand is
11393786Sarutz * passed in the features register. Since we have defined the size to
11403786Sarutz * be the size in bytes in this context it does not indicate bytes
11413786Sarutz * instead it indicates the mode to be programmed.
11423786Sarutz */
11433786Sarutz cdb.size = un->un_lbasize * mode;
11443786Sarutz
11453786Sarutz cdb.sector_num.lba_num = 0;
11463786Sarutz cdb.address_mode = ADD_LBA_MODE;
11473786Sarutz cdb.direction = NO_DATA_XFER;
11483786Sarutz cdb.features = ATA_FEATURE_SET_MODE;
11493786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
11503786Sarutz "size %x, features %x, cmd %x\n",
11513786Sarutz cdb.size, cdb.features, cdb.cmd);
11523786Sarutz
11533786Sarutz ucmd.udcd_flags = 0;
11543786Sarutz ucmd.udcd_cmd = &cdb;
11553786Sarutz ucmd.udcd_bufaddr = NULL;
11563786Sarutz ucmd.udcd_buflen = 0;
11573786Sarutz ucmd.udcd_flags |= UDCD_SILENT;
11583786Sarutz
11593786Sarutz dev = makedevice(ddi_driver_major(DCD_DEVINFO),
11603786Sarutz ddi_get_instance(DCD_DEVINFO) << DCDUNIT_SHIFT);
11613786Sarutz
11623786Sarutz status = dcdioctl_cmd(dev, &ucmd, UIO_SYSSPACE, UIO_SYSSPACE);
11633786Sarutz
11643786Sarutz return (status);
11653786Sarutz }
11663786Sarutz #endif
11673786Sarutz
11683786Sarutz /*
11693786Sarutz * Validate the geometry for this disk, e.g.,
11703786Sarutz * see whether it has a valid label.
11713786Sarutz */
11723786Sarutz static int
dcd_validate_geometry(struct dcd_disk * un)11733786Sarutz dcd_validate_geometry(struct dcd_disk *un)
11743786Sarutz {
11753786Sarutz int secsize = 0;
11763786Sarutz struct dcd_device *devp;
11773786Sarutz int secdiv;
11783786Sarutz int rval;
11793786Sarutz
11803786Sarutz ASSERT(mutex_owned(DCD_MUTEX));
11813786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
11823786Sarutz "dcd_validate_geometry: started \n");
11833786Sarutz
11843786Sarutz if (un->un_lbasize < 0) {
11853786Sarutz return (DCD_BAD_LABEL);
11863786Sarutz }
11873786Sarutz
11883786Sarutz if (un->un_state == DCD_STATE_PM_SUSPENDED) {
11893786Sarutz mutex_exit(DCD_MUTEX);
11907224Scth if (pm_raise_power(DCD_DEVINFO, 0, DCD_DEVICE_ACTIVE) !=
11917224Scth DDI_SUCCESS) {
11923786Sarutz mutex_enter(DCD_MUTEX);
11933786Sarutz return (DCD_BAD_LABEL);
11943786Sarutz }
11953786Sarutz mutex_enter(DCD_MUTEX);
11963786Sarutz }
11973786Sarutz
11983786Sarutz secsize = un->un_secsize;
11993786Sarutz
12003786Sarutz /*
12013786Sarutz * take a log base 2 of sector size (sorry)
12023786Sarutz */
12033786Sarutz for (secdiv = 0; secsize = secsize >> 1; secdiv++)
12043786Sarutz ;
12053786Sarutz un->un_secdiv = secdiv;
12063786Sarutz
12073786Sarutz /*
12083786Sarutz * Only DIRECT ACCESS devices will have Sun labels.
12093786Sarutz * CD's supposedly have a Sun label, too
12103786Sarutz */
12113786Sarutz
12123786Sarutz devp = un->un_dcd;
12133786Sarutz
12143786Sarutz if (((devp->dcd_ident->dcd_config & ATAPI_DEVICE) == 0) &&
12153786Sarutz (devp->dcd_ident->dcd_config & ATANON_REMOVABLE)) {
12163786Sarutz mutex_exit(DCD_MUTEX);
12173786Sarutz rval = cmlb_validate(un->un_dklbhandle, 0, 0);
12183786Sarutz mutex_enter(DCD_MUTEX);
12193786Sarutz if (rval == ENOMEM)
12203786Sarutz return (DCD_NO_MEM_FOR_LABEL);
12213786Sarutz else if (rval != 0)
12223786Sarutz return (DCD_BAD_LABEL);
12233786Sarutz } else {
12243786Sarutz /* it should never get here. */
12253786Sarutz return (DCD_BAD_LABEL);
12263786Sarutz }
12273786Sarutz
12283786Sarutz /*
12293786Sarutz * take a log base 2 of logical block size
12303786Sarutz */
12313786Sarutz secsize = un->un_lbasize;
12323786Sarutz for (secdiv = 0; secsize = secsize >> 1; secdiv++)
12333786Sarutz ;
12343786Sarutz un->un_lbadiv = secdiv;
12353786Sarutz
12363786Sarutz /*
12373786Sarutz * take a log base 2 of the multiple of DEV_BSIZE blocks that
12383786Sarutz * make up one logical block
12393786Sarutz */
12403786Sarutz secsize = un->un_lbasize >> DEV_BSHIFT;
12413786Sarutz for (secdiv = 0; secsize = secsize >> 1; secdiv++)
12423786Sarutz ;
12433786Sarutz un->un_blknoshift = secdiv;
12443786Sarutz return (0);
12453786Sarutz }
12463786Sarutz
12473786Sarutz /*
12483786Sarutz * Unix Entry Points
12493786Sarutz */
12503786Sarutz
12513786Sarutz /* ARGSUSED3 */
12523786Sarutz static int
dcdopen(dev_t * dev_p,int flag,int otyp,cred_t * cred_p)12533786Sarutz dcdopen(dev_t *dev_p, int flag, int otyp, cred_t *cred_p)
12543786Sarutz {
12553786Sarutz dev_t dev = *dev_p;
12563786Sarutz int rval = EIO;
12573786Sarutz int partmask;
12583786Sarutz int nodelay = (flag & (FNDELAY | FNONBLOCK));
12593786Sarutz int i;
12603786Sarutz char kstatname[KSTAT_STRLEN];
12613786Sarutz diskaddr_t lblocks;
12623786Sarutz char *partname;
12633786Sarutz
12643786Sarutz GET_SOFT_STATE(dev);
12653786Sarutz
12663786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
12673786Sarutz "Inside Open flag %x, otyp %x\n", flag, otyp);
12683786Sarutz
12693786Sarutz if (otyp >= OTYPCNT) {
12703786Sarutz return (EINVAL);
12713786Sarutz }
12723786Sarutz
12733786Sarutz partmask = 1 << part;
12743786Sarutz
12753786Sarutz /*
12763786Sarutz * We use a semaphore here in order to serialize
12773786Sarutz * open and close requests on the device.
12783786Sarutz */
12793786Sarutz sema_p(&un->un_semoclose);
12803786Sarutz
12813786Sarutz mutex_enter(DCD_MUTEX);
12823786Sarutz
12833786Sarutz if ((un->un_state & DCD_STATE_FATAL) == DCD_STATE_FATAL) {
12843786Sarutz rval = ENXIO;
12853786Sarutz goto done;
12863786Sarutz }
12873786Sarutz
12883786Sarutz while (un->un_state == DCD_STATE_SUSPENDED) {
12893786Sarutz cv_wait(&un->un_suspend_cv, DCD_MUTEX);
12903786Sarutz }
12913786Sarutz
12923786Sarutz if ((un->un_state == DCD_STATE_PM_SUSPENDED) && (!nodelay)) {
12933786Sarutz mutex_exit(DCD_MUTEX);
12943786Sarutz if (pm_raise_power(DCD_DEVINFO, 0, DCD_DEVICE_ACTIVE)
12953786Sarutz != DDI_SUCCESS) {
12963786Sarutz mutex_enter(DCD_MUTEX);
12973786Sarutz rval = EIO;
12983786Sarutz goto done;
12993786Sarutz }
13003786Sarutz mutex_enter(DCD_MUTEX);
13013786Sarutz }
13023786Sarutz
13033786Sarutz /*
13043786Sarutz * set make_dcd_cmd() flags and stat_size here since these
13053786Sarutz * are unlikely to change
13063786Sarutz */
13073786Sarutz un->un_cmd_flags = 0;
13083786Sarutz
13093786Sarutz un->un_cmd_stat_size = 2;
13103786Sarutz
13113786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG, "dcdopen un=0x%p\n",
13123786Sarutz (void *)un);
13133786Sarutz /*
13143786Sarutz * check for previous exclusive open
13153786Sarutz */
13163786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
13173786Sarutz "exclopen=%x, flag=%x, regopen=%x\n",
13183786Sarutz un->un_exclopen, flag, un->un_ocmap.regopen[otyp]);
13193786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
13203786Sarutz "Exclusive open flag %x, partmask %x\n",
13213786Sarutz un->un_exclopen, partmask);
13223786Sarutz
13233786Sarutz if (un->un_exclopen & (partmask)) {
13243786Sarutz failed_exclusive:
13253786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
13263786Sarutz "exclusive open fails\n");
13273786Sarutz rval = EBUSY;
13283786Sarutz goto done;
13293786Sarutz }
13303786Sarutz
13313786Sarutz if (flag & FEXCL) {
13323786Sarutz int i;
13333786Sarutz if (un->un_ocmap.lyropen[part]) {
13343786Sarutz goto failed_exclusive;
13353786Sarutz }
13363786Sarutz for (i = 0; i < (OTYPCNT - 1); i++) {
13373786Sarutz if (un->un_ocmap.regopen[i] & (partmask)) {
13383786Sarutz goto failed_exclusive;
13393786Sarutz }
13403786Sarutz }
13413786Sarutz }
13423786Sarutz if (flag & FWRITE) {
13433786Sarutz mutex_exit(DCD_MUTEX);
13443786Sarutz if (dcd_check_wp(dev)) {
13453786Sarutz sema_v(&un->un_semoclose);
13463786Sarutz return (EROFS);
13473786Sarutz }
13483786Sarutz mutex_enter(DCD_MUTEX);
13493786Sarutz }
13503786Sarutz
13513786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
13523786Sarutz "Check Write Protect handled\n");
13533786Sarutz
13543786Sarutz if (!nodelay) {
13553786Sarutz mutex_exit(DCD_MUTEX);
13563786Sarutz if ((rval = dcd_ready_and_valid(dev, un)) != 0) {
13573786Sarutz rval = EIO;
13583786Sarutz }
13593786Sarutz (void) pm_idle_component(DCD_DEVINFO, 0);
13603786Sarutz /*
13613786Sarutz * Fail if device is not ready or if the number of disk
13623786Sarutz * blocks is zero or negative for non CD devices.
13633786Sarutz */
13643786Sarutz if (rval || cmlb_partinfo(un->un_dklbhandle,
13653786Sarutz part, &lblocks, NULL, &partname, NULL, 0) ||
13663786Sarutz lblocks <= 0) {
13673786Sarutz rval = EIO;
13683786Sarutz mutex_enter(DCD_MUTEX);
13693786Sarutz goto done;
13703786Sarutz }
13713786Sarutz mutex_enter(DCD_MUTEX);
13723786Sarutz }
13733786Sarutz
13743786Sarutz if (otyp == OTYP_LYR) {
13753786Sarutz un->un_ocmap.lyropen[part]++;
13763786Sarutz } else {
13773786Sarutz un->un_ocmap.regopen[otyp] |= partmask;
13783786Sarutz }
13793786Sarutz
13803786Sarutz /*
13813786Sarutz * set up open and exclusive open flags
13823786Sarutz */
13833786Sarutz if (flag & FEXCL) {
13843786Sarutz un->un_exclopen |= (partmask);
13853786Sarutz }
13863786Sarutz
13873786Sarutz
13883786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
13893786Sarutz "open of part %d type %d\n",
13903786Sarutz part, otyp);
13913786Sarutz
13923786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
13933786Sarutz "Kstats getting updated\n");
13943786Sarutz /*
13953786Sarutz * only create kstats for disks, CD kstats created in dcdattach
13963786Sarutz */
13973786Sarutz _NOTE(NO_COMPETING_THREADS_NOW);
13983786Sarutz mutex_exit(DCD_MUTEX);
13993786Sarutz if (un->un_stats == (kstat_t *)0) {
14003786Sarutz un->un_stats = kstat_create("dad", instance,
14013786Sarutz NULL, "disk", KSTAT_TYPE_IO, 1,
14023786Sarutz KSTAT_FLAG_PERSISTENT);
14033786Sarutz if (un->un_stats) {
14043786Sarutz un->un_stats->ks_lock = DCD_MUTEX;
14053786Sarutz kstat_install(un->un_stats);
14063786Sarutz }
14073786Sarutz
14083786Sarutz /*
14093786Sarutz * set up partition statistics for each partition
14103786Sarutz * with number of blocks > 0
14113786Sarutz */
14123786Sarutz if (!nodelay) {
14133786Sarutz for (i = 0; i < NDKMAP; i++) {
14143786Sarutz if ((un->un_pstats[i] == (kstat_t *)0) &&
14153786Sarutz (cmlb_partinfo(un->un_dklbhandle,
14163786Sarutz i, &lblocks, NULL, &partname,
14173786Sarutz NULL, 0) == 0) && lblocks > 0) {
14183786Sarutz (void) sprintf(kstatname, "dad%d,%s",
14193786Sarutz instance, partname);
14203786Sarutz un->un_pstats[i] = kstat_create("dad",
14213786Sarutz instance,
14223786Sarutz kstatname,
14233786Sarutz "partition",
14243786Sarutz KSTAT_TYPE_IO,
14253786Sarutz 1,
14263786Sarutz KSTAT_FLAG_PERSISTENT);
14273786Sarutz if (un->un_pstats[i]) {
14283786Sarutz un->un_pstats[i]->ks_lock =
14293786Sarutz DCD_MUTEX;
14303786Sarutz kstat_install(un->un_pstats[i]);
14313786Sarutz }
14323786Sarutz }
14333786Sarutz }
14343786Sarutz }
14353786Sarutz /*
14363786Sarutz * set up error kstats
14373786Sarutz */
14383786Sarutz (void) dcd_create_errstats(un, instance);
14393786Sarutz }
14403786Sarutz #ifndef lint
14413786Sarutz _NOTE(COMPETING_THREADS_NOW);
14423786Sarutz #endif
14433786Sarutz
14443786Sarutz sema_v(&un->un_semoclose);
14453786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "Open success\n");
14463786Sarutz return (0);
14473786Sarutz
14483786Sarutz done:
14493786Sarutz mutex_exit(DCD_MUTEX);
14503786Sarutz sema_v(&un->un_semoclose);
14513786Sarutz return (rval);
14523786Sarutz
14533786Sarutz }
14543786Sarutz
14553786Sarutz /*
14563786Sarutz * Test if disk is ready and has a valid geometry.
14573786Sarutz */
14583786Sarutz static int
dcd_ready_and_valid(dev_t dev,struct dcd_disk * un)14593786Sarutz dcd_ready_and_valid(dev_t dev, struct dcd_disk *un)
14603786Sarutz {
14613786Sarutz int rval = 1;
14623786Sarutz int g_error = 0;
14633786Sarutz
14643786Sarutz mutex_enter(DCD_MUTEX);
14653786Sarutz /*
14663786Sarutz * cmds outstanding
14673786Sarutz */
14683786Sarutz if (un->un_ncmds == 0) {
14693786Sarutz (void) dcd_unit_ready(dev);
14703786Sarutz }
14713786Sarutz
14723786Sarutz /*
14733786Sarutz * If device is not yet ready here, inform it is offline
14743786Sarutz */
14753786Sarutz if (un->un_state == DCD_STATE_NORMAL) {
14763786Sarutz rval = dcd_unit_ready(dev);
14773786Sarutz if (rval != 0 && rval != EACCES) {
14783786Sarutz dcd_offline(un, 1);
14793786Sarutz goto done;
14803786Sarutz }
14813786Sarutz }
14823786Sarutz
14833786Sarutz if (un->un_format_in_progress == 0) {
14843786Sarutz g_error = dcd_validate_geometry(un);
14853786Sarutz }
14863786Sarutz
14873786Sarutz /*
14883786Sarutz * check if geometry was valid. We don't check the validity of
14893786Sarutz * geometry for CDROMS.
14903786Sarutz */
14913786Sarutz
14923786Sarutz if (g_error == DCD_BAD_LABEL) {
14933786Sarutz rval = 1;
14943786Sarutz goto done;
14953786Sarutz }
14963786Sarutz
14973786Sarutz
14983786Sarutz /*
14993786Sarutz * the state has changed; inform the media watch routines
15003786Sarutz */
15013786Sarutz un->un_mediastate = DKIO_INSERTED;
15023786Sarutz cv_broadcast(&un->un_state_cv);
15033786Sarutz rval = 0;
15043786Sarutz
15053786Sarutz done:
15063786Sarutz mutex_exit(DCD_MUTEX);
15073786Sarutz return (rval);
15083786Sarutz }
15093786Sarutz
15103786Sarutz
15113786Sarutz /*ARGSUSED*/
15123786Sarutz static int
dcdclose(dev_t dev,int flag,int otyp,cred_t * cred_p)15133786Sarutz dcdclose(dev_t dev, int flag, int otyp, cred_t *cred_p)
15143786Sarutz {
15153786Sarutz uchar_t *cp;
15163786Sarutz int i;
15173786Sarutz
15183786Sarutz GET_SOFT_STATE(dev);
15193786Sarutz
15203786Sarutz
15213786Sarutz if (otyp >= OTYPCNT)
15223786Sarutz return (ENXIO);
15233786Sarutz
15243786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
15253786Sarutz "close of part %d type %d\n",
15263786Sarutz part, otyp);
15273786Sarutz sema_p(&un->un_semoclose);
15283786Sarutz
15293786Sarutz mutex_enter(DCD_MUTEX);
15303786Sarutz
15313786Sarutz if (un->un_exclopen & (1<<part)) {
15323786Sarutz un->un_exclopen &= ~(1<<part);
15333786Sarutz }
15343786Sarutz
15353786Sarutz if (otyp == OTYP_LYR) {
15363786Sarutz un->un_ocmap.lyropen[part] -= 1;
15373786Sarutz } else {
15383786Sarutz un->un_ocmap.regopen[otyp] &= ~(1<<part);
15393786Sarutz }
15403786Sarutz
15413786Sarutz cp = &un->un_ocmap.chkd[0];
15423786Sarutz while (cp < &un->un_ocmap.chkd[OCSIZE]) {
15433786Sarutz if (*cp != (uchar_t)0) {
15443786Sarutz break;
15453786Sarutz }
15463786Sarutz cp++;
15473786Sarutz }
15483786Sarutz
15493786Sarutz if (cp == &un->un_ocmap.chkd[OCSIZE]) {
15503786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG, "last close\n");
15513786Sarutz if (un->un_state == DCD_STATE_OFFLINE) {
15523786Sarutz dcd_offline(un, 1);
15533786Sarutz }
15543786Sarutz
15553786Sarutz mutex_exit(DCD_MUTEX);
15563786Sarutz (void) cmlb_close(un->un_dklbhandle, 0);
15573786Sarutz
15583786Sarutz _NOTE(NO_COMPETING_THREADS_NOW);
15593786Sarutz if (un->un_stats) {
15603786Sarutz kstat_delete(un->un_stats);
15613786Sarutz un->un_stats = 0;
15623786Sarutz }
15633786Sarutz for (i = 0; i < NDKMAP; i++) {
15643786Sarutz if (un->un_pstats[i]) {
15653786Sarutz kstat_delete(un->un_pstats[i]);
15663786Sarutz un->un_pstats[i] = (kstat_t *)0;
15673786Sarutz }
15683786Sarutz }
15693786Sarutz
15703786Sarutz if (un->un_errstats) {
15713786Sarutz kstat_delete(un->un_errstats);
15723786Sarutz un->un_errstats = (kstat_t *)0;
15733786Sarutz }
15743786Sarutz mutex_enter(DCD_MUTEX);
15753786Sarutz
15763786Sarutz #ifndef lint
15773786Sarutz _NOTE(COMPETING_THREADS_NOW);
15783786Sarutz #endif
15793786Sarutz }
15803786Sarutz
15813786Sarutz mutex_exit(DCD_MUTEX);
15823786Sarutz sema_v(&un->un_semoclose);
15833786Sarutz return (0);
15843786Sarutz }
15853786Sarutz
15863786Sarutz static void
dcd_offline(struct dcd_disk * un,int bechatty)15873786Sarutz dcd_offline(struct dcd_disk *un, int bechatty)
15883786Sarutz {
15893786Sarutz if (bechatty)
15903786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN, "offline\n");
15913786Sarutz
15923786Sarutz mutex_exit(DCD_MUTEX);
15933786Sarutz cmlb_invalidate(un->un_dklbhandle, 0);
15943786Sarutz mutex_enter(DCD_MUTEX);
15953786Sarutz }
15963786Sarutz
15973786Sarutz /*
15983786Sarutz * Given the device number return the devinfo pointer
15993786Sarutz * from the scsi_device structure.
16003786Sarutz */
16013786Sarutz /*ARGSUSED*/
16023786Sarutz static int
dcdinfo(dev_info_t * dip,ddi_info_cmd_t infocmd,void * arg,void ** result)16033786Sarutz dcdinfo(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result)
16043786Sarutz {
16053786Sarutz dev_t dev;
16063786Sarutz struct dcd_disk *un;
16073786Sarutz int instance, error;
16083786Sarutz
16093786Sarutz
16103786Sarutz switch (infocmd) {
16113786Sarutz case DDI_INFO_DEVT2DEVINFO:
16123786Sarutz dev = (dev_t)arg;
16133786Sarutz instance = DCDUNIT(dev);
16143786Sarutz if ((un = ddi_get_soft_state(dcd_state, instance)) == NULL)
16153786Sarutz return (DDI_FAILURE);
16163786Sarutz *result = (void *) DCD_DEVINFO;
16173786Sarutz error = DDI_SUCCESS;
16183786Sarutz break;
16193786Sarutz case DDI_INFO_DEVT2INSTANCE:
16203786Sarutz dev = (dev_t)arg;
16213786Sarutz instance = DCDUNIT(dev);
16223786Sarutz *result = (void *)(uintptr_t)instance;
16233786Sarutz error = DDI_SUCCESS;
16243786Sarutz break;
16253786Sarutz default:
16263786Sarutz error = DDI_FAILURE;
16273786Sarutz }
16283786Sarutz return (error);
16293786Sarutz }
16303786Sarutz
16313786Sarutz /*
16323786Sarutz * property operation routine. return the number of blocks for the partition
16333786Sarutz * in question or forward the request to the propery facilities.
16343786Sarutz */
16353786Sarutz static int
dcd_prop_op(dev_t dev,dev_info_t * dip,ddi_prop_op_t prop_op,int mod_flags,char * name,caddr_t valuep,int * lengthp)16363786Sarutz dcd_prop_op(dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op, int mod_flags,
16373786Sarutz char *name, caddr_t valuep, int *lengthp)
16383786Sarutz {
16393786Sarutz struct dcd_disk *un;
16407224Scth
16417224Scth if ((un = ddi_get_soft_state(dcd_state, ddi_get_instance(dip))) == NULL)
16423786Sarutz return (ddi_prop_op(dev, dip, prop_op, mod_flags,
16433786Sarutz name, valuep, lengthp));
16447224Scth
16457224Scth return (cmlb_prop_op(un->un_dklbhandle,
16467224Scth dev, dip, prop_op, mod_flags, name, valuep, lengthp,
16477224Scth DCDPART(dev), NULL));
16483786Sarutz }
16493786Sarutz
16503786Sarutz /*
16513786Sarutz * These routines perform raw i/o operations.
16523786Sarutz */
16533786Sarutz /*ARGSUSED*/
16543786Sarutz void
dcduscsimin(struct buf * bp)16553786Sarutz dcduscsimin(struct buf *bp)
16563786Sarutz {
16573786Sarutz
16583786Sarutz }
16593786Sarutz
16603786Sarutz
16613786Sarutz static void
dcdmin(struct buf * bp)16623786Sarutz dcdmin(struct buf *bp)
16633786Sarutz {
16643786Sarutz struct dcd_disk *un;
16653786Sarutz int instance;
16663786Sarutz minor_t minor = getminor(bp->b_edev);
16673786Sarutz instance = minor >> DCDUNIT_SHIFT;
16683786Sarutz un = ddi_get_soft_state(dcd_state, instance);
16693786Sarutz
16703786Sarutz if (bp->b_bcount > un->un_max_xfer_size)
16713786Sarutz bp->b_bcount = un->un_max_xfer_size;
16723786Sarutz }
16733786Sarutz
16743786Sarutz
16753786Sarutz /* ARGSUSED2 */
16763786Sarutz static int
dcdread(dev_t dev,struct uio * uio,cred_t * cred_p)16773786Sarutz dcdread(dev_t dev, struct uio *uio, cred_t *cred_p)
16783786Sarutz {
16793786Sarutz int secmask;
16803786Sarutz GET_SOFT_STATE(dev);
16813786Sarutz #ifdef lint
16823786Sarutz part = part;
16833786Sarutz #endif /* lint */
16843786Sarutz secmask = un->un_secsize - 1;
16853786Sarutz
16863786Sarutz if (uio->uio_loffset & ((offset_t)(secmask))) {
16873786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
16883786Sarutz "file offset not modulo %d\n",
16893786Sarutz un->un_secsize);
16903786Sarutz return (EINVAL);
16913786Sarutz } else if (uio->uio_iov->iov_len & (secmask)) {
16923786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
16933786Sarutz "transfer length not modulo %d\n", un->un_secsize);
16943786Sarutz return (EINVAL);
16953786Sarutz }
16963786Sarutz return (physio(dcdstrategy, (struct buf *)0, dev, B_READ, dcdmin, uio));
16973786Sarutz }
16983786Sarutz
16993786Sarutz /* ARGSUSED2 */
17003786Sarutz static int
dcdaread(dev_t dev,struct aio_req * aio,cred_t * cred_p)17013786Sarutz dcdaread(dev_t dev, struct aio_req *aio, cred_t *cred_p)
17023786Sarutz {
17033786Sarutz int secmask;
17043786Sarutz struct uio *uio = aio->aio_uio;
17053786Sarutz GET_SOFT_STATE(dev);
17063786Sarutz #ifdef lint
17073786Sarutz part = part;
17083786Sarutz #endif /* lint */
17093786Sarutz secmask = un->un_secsize - 1;
17103786Sarutz
17113786Sarutz if (uio->uio_loffset & ((offset_t)(secmask))) {
17123786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
17133786Sarutz "file offset not modulo %d\n",
17143786Sarutz un->un_secsize);
17153786Sarutz return (EINVAL);
17163786Sarutz } else if (uio->uio_iov->iov_len & (secmask)) {
17173786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
17183786Sarutz "transfer length not modulo %d\n", un->un_secsize);
17193786Sarutz return (EINVAL);
17203786Sarutz }
17213786Sarutz return (aphysio(dcdstrategy, anocancel, dev, B_READ, dcdmin, aio));
17223786Sarutz }
17233786Sarutz
17243786Sarutz /* ARGSUSED2 */
17253786Sarutz static int
dcdwrite(dev_t dev,struct uio * uio,cred_t * cred_p)17263786Sarutz dcdwrite(dev_t dev, struct uio *uio, cred_t *cred_p)
17273786Sarutz {
17283786Sarutz int secmask;
17293786Sarutz GET_SOFT_STATE(dev);
17303786Sarutz #ifdef lint
17313786Sarutz part = part;
17323786Sarutz #endif /* lint */
17333786Sarutz secmask = un->un_secsize - 1;
17343786Sarutz
17353786Sarutz if (uio->uio_loffset & ((offset_t)(secmask))) {
17363786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
17373786Sarutz "file offset not modulo %d\n",
17383786Sarutz un->un_secsize);
17393786Sarutz return (EINVAL);
17403786Sarutz } else if (uio->uio_iov->iov_len & (secmask)) {
17413786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
17423786Sarutz "transfer length not modulo %d\n", un->un_secsize);
17433786Sarutz return (EINVAL);
17443786Sarutz }
17453786Sarutz return (physio(dcdstrategy, (struct buf *)0, dev, B_WRITE, dcdmin,
17463786Sarutz uio));
17473786Sarutz }
17483786Sarutz
17493786Sarutz /* ARGSUSED2 */
17503786Sarutz static int
dcdawrite(dev_t dev,struct aio_req * aio,cred_t * cred_p)17513786Sarutz dcdawrite(dev_t dev, struct aio_req *aio, cred_t *cred_p)
17523786Sarutz {
17533786Sarutz int secmask;
17543786Sarutz struct uio *uio = aio->aio_uio;
17553786Sarutz GET_SOFT_STATE(dev);
17563786Sarutz #ifdef lint
17573786Sarutz part = part;
17583786Sarutz #endif /* lint */
17593786Sarutz secmask = un->un_secsize - 1;
17603786Sarutz
17613786Sarutz if (uio->uio_loffset & ((offset_t)(secmask))) {
17623786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
17633786Sarutz "file offset not modulo %d\n",
17643786Sarutz un->un_secsize);
17653786Sarutz return (EINVAL);
17663786Sarutz } else if (uio->uio_iov->iov_len & (secmask)) {
17673786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
17683786Sarutz "transfer length not modulo %d\n", un->un_secsize);
17693786Sarutz return (EINVAL);
17703786Sarutz }
17713786Sarutz return (aphysio(dcdstrategy, anocancel, dev, B_WRITE, dcdmin, aio));
17723786Sarutz }
17733786Sarutz
17743786Sarutz /*
17753786Sarutz * strategy routine
17763786Sarutz */
17773786Sarutz static int
dcdstrategy(struct buf * bp)17783786Sarutz dcdstrategy(struct buf *bp)
17793786Sarutz {
17803786Sarutz struct dcd_disk *un;
17813786Sarutz struct diskhd *dp;
17823786Sarutz int i;
17833786Sarutz minor_t minor = getminor(bp->b_edev);
17843786Sarutz diskaddr_t p_lblksrt;
17853786Sarutz diskaddr_t lblocks;
17863786Sarutz diskaddr_t bn;
17873786Sarutz
17883786Sarutz if ((un = ddi_get_soft_state(dcd_state,
17893786Sarutz minor >> DCDUNIT_SHIFT)) == NULL ||
17903786Sarutz un->un_state == DCD_STATE_DUMPING ||
17913786Sarutz ((un->un_state & DCD_STATE_FATAL) == DCD_STATE_FATAL)) {
17923786Sarutz SET_BP_ERROR(bp, ((un) ? ENXIO : EIO));
17933786Sarutz error:
17943786Sarutz bp->b_resid = bp->b_bcount;
17953786Sarutz biodone(bp);
17963786Sarutz return (0);
17973786Sarutz }
17983786Sarutz
17993786Sarutz /*
18003786Sarutz * If the request size (buf->b_bcount)is greater than the size
18013786Sarutz * (un->un_max_xfer_size) supported by the target driver fail
18023786Sarutz * the request with EINVAL error code.
18033786Sarutz *
18043786Sarutz * We are not supposed to receive requests exceeding
18053786Sarutz * un->un_max_xfer_size size because the caller is expected to
18063786Sarutz * check what is the maximum size that is supported by this
18073786Sarutz * driver either through ioctl or dcdmin routine(which is private
18083786Sarutz * to this driver).
18093786Sarutz * But we have seen cases (like meta driver(md))where dcdstrategy
18103786Sarutz * called with more than supported size and cause data corruption.
18113786Sarutz */
18123786Sarutz
18133786Sarutz if (bp->b_bcount > un->un_max_xfer_size) {
18143786Sarutz SET_BP_ERROR(bp, EINVAL);
18153786Sarutz goto error;
18163786Sarutz }
18173786Sarutz
18183786Sarutz TRACE_2(TR_FAC_DADA, TR_DCDSTRATEGY_START,
18193786Sarutz "dcdstrategy_start: bp 0x%p un 0x%p", bp, un);
18203786Sarutz
18213786Sarutz /*
18223786Sarutz * Commands may sneak in while we released the mutex in
18233786Sarutz * DDI_SUSPEND, we should block new commands.
18243786Sarutz */
18253786Sarutz mutex_enter(DCD_MUTEX);
18263786Sarutz while (un->un_state == DCD_STATE_SUSPENDED) {
18273786Sarutz cv_wait(&un->un_suspend_cv, DCD_MUTEX);
18283786Sarutz }
18293786Sarutz
18303786Sarutz if (un->un_state == DCD_STATE_PM_SUSPENDED) {
18313786Sarutz mutex_exit(DCD_MUTEX);
18323786Sarutz (void) pm_idle_component(DCD_DEVINFO, 0);
18333786Sarutz if (pm_raise_power(DCD_DEVINFO, 0,
18347224Scth DCD_DEVICE_ACTIVE) != DDI_SUCCESS) {
18353786Sarutz SET_BP_ERROR(bp, EIO);
18363786Sarutz goto error;
18373786Sarutz }
18383786Sarutz mutex_enter(DCD_MUTEX);
18393786Sarutz }
18403786Sarutz mutex_exit(DCD_MUTEX);
18413786Sarutz
18423786Sarutz /*
18433786Sarutz * Map-in the buffer in case starting address is not word aligned.
18443786Sarutz */
18453786Sarutz
18463786Sarutz if (((uintptr_t)bp->b_un.b_addr) & 0x1)
18473786Sarutz bp_mapin(bp);
18483786Sarutz
18493786Sarutz bp->b_flags &= ~(B_DONE|B_ERROR);
18503786Sarutz bp->b_resid = 0;
18513786Sarutz bp->av_forw = 0;
18523786Sarutz
18533786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
18543786Sarutz "bp->b_bcount %lx\n", bp->b_bcount);
18553786Sarutz
18563786Sarutz if (bp != un->un_sbufp) {
18573786Sarutz validated: if (cmlb_partinfo(un->un_dklbhandle,
18583786Sarutz minor & DCDPART_MASK,
18593786Sarutz &lblocks,
18603786Sarutz &p_lblksrt,
18613786Sarutz NULL,
18623786Sarutz NULL,
18633786Sarutz 0) == 0) {
18643786Sarutz
18653786Sarutz bn = dkblock(bp);
18663786Sarutz
18673786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
18683786Sarutz "dkblock(bp) is %llu\n", bn);
18693786Sarutz
18703786Sarutz i = 0;
18713786Sarutz if (bn < 0) {
18723786Sarutz i = -1;
18733786Sarutz } else if (bn >= lblocks) {
18743786Sarutz /*
18753786Sarutz * For proper comparison, file system block
18763786Sarutz * number has to be scaled to actual CD
18773786Sarutz * transfer size.
18783786Sarutz * Since all the CDROM operations
18793786Sarutz * that have Sun Labels are in the correct
18803786Sarutz * block size this will work for CD's. This
18813786Sarutz * will have to change when we have different
18823786Sarutz * sector sizes.
18833786Sarutz *
18843786Sarutz * if bn == lblocks,
18853786Sarutz * Not an error, resid == count
18863786Sarutz */
18873786Sarutz if (bn > lblocks) {
18883786Sarutz i = -1;
18893786Sarutz } else {
18903786Sarutz i = 1;
18913786Sarutz }
18923786Sarutz } else if (bp->b_bcount & (un->un_secsize-1)) {
18933786Sarutz /*
18943786Sarutz * This should really be:
18953786Sarutz *
18963786Sarutz * ... if (bp->b_bcount & (un->un_lbasize-1))
18973786Sarutz *
18983786Sarutz */
18993786Sarutz i = -1;
19003786Sarutz } else {
19013786Sarutz if (!bp->b_bcount) {
19023786Sarutz printf("Waring : Zero read or Write\n");
19033786Sarutz goto error;
19043786Sarutz }
19053786Sarutz /*
19063786Sarutz * sort by absolute block number.
19073786Sarutz */
19083786Sarutz bp->b_resid = bn;
19093786Sarutz bp->b_resid += p_lblksrt;
19103786Sarutz /*
19113786Sarutz * zero out av_back - this will be a signal
19123786Sarutz * to dcdstart to go and fetch the resources
19133786Sarutz */
19143786Sarutz bp->av_back = NO_PKT_ALLOCATED;
19153786Sarutz }
19163786Sarutz
19173786Sarutz /*
19183786Sarutz * Check to see whether or not we are done
19193786Sarutz * (with or without errors).
19203786Sarutz */
19213786Sarutz
19223786Sarutz if (i != 0) {
19233786Sarutz if (i < 0) {
19243786Sarutz bp->b_flags |= B_ERROR;
19253786Sarutz }
19263786Sarutz goto error;
19273786Sarutz }
19283786Sarutz } else {
19293786Sarutz /*
19303786Sarutz * opened in NDELAY/NONBLOCK mode?
19313786Sarutz * Check if disk is ready and has a valid geometry
19323786Sarutz */
19333786Sarutz if (dcd_ready_and_valid(bp->b_edev, un) == 0) {
19343786Sarutz goto validated;
19353786Sarutz } else {
19363786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
19373786Sarutz "i/o to invalid geometry\n");
19383786Sarutz SET_BP_ERROR(bp, EIO);
19393786Sarutz goto error;
19403786Sarutz }
19413786Sarutz }
19423786Sarutz } else if (BP_HAS_NO_PKT(bp)) {
19433786Sarutz struct udcd_cmd *tscmdp;
19443786Sarutz struct dcd_cmd *tcmdp;
19453786Sarutz /*
19463786Sarutz * This indicates that it is a special buffer
19473786Sarutz * This could be a udcd-cmd and hence call bp_mapin just
19483786Sarutz * in case that it could be a PIO command issued.
19493786Sarutz */
19503786Sarutz tscmdp = (struct udcd_cmd *)bp->b_forw;
19513786Sarutz tcmdp = tscmdp->udcd_cmd;
19523786Sarutz if ((tcmdp->cmd != ATA_READ_DMA) && (tcmdp->cmd != 0xc9) &&
19533786Sarutz (tcmdp->cmd != ATA_WRITE_DMA) && (tcmdp->cmd != 0xcb) &&
19543786Sarutz (tcmdp->cmd != IDENTIFY_DMA) &&
19553786Sarutz (tcmdp->cmd != ATA_FLUSH_CACHE)) {
19563786Sarutz bp_mapin(bp);
19573786Sarutz }
19583786Sarutz }
19593786Sarutz
19603786Sarutz /*
19613786Sarutz * We are doing it a bit non-standard. That is, the
19623786Sarutz * head of the b_actf chain is *not* the active command-
19633786Sarutz * it is just the head of the wait queue. The reason
19643786Sarutz * we do this is that the head of the b_actf chain is
19653786Sarutz * guaranteed to not be moved by disksort(), so that
19663786Sarutz * our restart command (pointed to by
19673786Sarutz * b_forw) and the head of the wait queue (b_actf) can
19683786Sarutz * have resources granted without it getting lost in
19693786Sarutz * the queue at some later point (where we would have
19703786Sarutz * to go and look for it).
19713786Sarutz */
19723786Sarutz mutex_enter(DCD_MUTEX);
19733786Sarutz
19743786Sarutz DCD_DO_KSTATS(un, kstat_waitq_enter, bp);
19753786Sarutz
19763786Sarutz dp = &un->un_utab;
19773786Sarutz
19783786Sarutz if (dp->b_actf == NULL) {
19793786Sarutz dp->b_actf = bp;
19803786Sarutz dp->b_actl = bp;
19813786Sarutz } else if ((un->un_state == DCD_STATE_SUSPENDED) &&
19823786Sarutz bp == un->un_sbufp) {
19833786Sarutz bp->b_actf = dp->b_actf;
19843786Sarutz dp->b_actf = bp;
19853786Sarutz } else {
19863786Sarutz TRACE_3(TR_FAC_DADA, TR_DCDSTRATEGY_DISKSORT_START,
19873786Sarutz "dcdstrategy_disksort_start: dp 0x%p bp 0x%p un 0x%p",
19883786Sarutz dp, bp, un);
19893786Sarutz disksort(dp, bp);
19903786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTRATEGY_DISKSORT_END,
19913786Sarutz "dcdstrategy_disksort_end");
19923786Sarutz }
19933786Sarutz
19943786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
19953786Sarutz "ncmd %x , throttle %x, forw 0x%p\n",
19963786Sarutz un->un_ncmds, un->un_throttle, (void *)dp->b_forw);
19973786Sarutz ASSERT(un->un_ncmds >= 0);
19983786Sarutz ASSERT(un->un_throttle >= 0);
19993786Sarutz if ((un->un_ncmds < un->un_throttle) && (dp->b_forw == NULL)) {
20003786Sarutz dcdstart(un);
20013786Sarutz } else if (BP_HAS_NO_PKT(dp->b_actf)) {
20023786Sarutz struct buf *cmd_bp;
20033786Sarutz
20043786Sarutz cmd_bp = dp->b_actf;
20053786Sarutz cmd_bp->av_back = ALLOCATING_PKT;
20063786Sarutz mutex_exit(DCD_MUTEX);
20073786Sarutz /*
20083786Sarutz * try and map this one
20093786Sarutz */
20103786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTRATEGY_SMALL_WINDOW_START,
20113786Sarutz "dcdstrategy_small_window_call (begin)");
20123786Sarutz
20133786Sarutz make_dcd_cmd(un, cmd_bp, NULL_FUNC);
20143786Sarutz
20153786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTRATEGY_SMALL_WINDOW_END,
20163786Sarutz "dcdstrategy_small_window_call (end)");
20173786Sarutz
20183786Sarutz /*
20193786Sarutz * there is a small window where the active cmd
20203786Sarutz * completes before make_dcd_cmd returns.
20213786Sarutz * consequently, this cmd never gets started so
20223786Sarutz * we start it from here
20233786Sarutz */
20243786Sarutz mutex_enter(DCD_MUTEX);
20253786Sarutz if ((un->un_ncmds < un->un_throttle) &&
20263786Sarutz (dp->b_forw == NULL)) {
20273786Sarutz dcdstart(un);
20283786Sarutz }
20293786Sarutz }
20303786Sarutz mutex_exit(DCD_MUTEX);
20313786Sarutz
20323786Sarutz done:
20333786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTRATEGY_END, "dcdstrategy_end");
20343786Sarutz return (0);
20353786Sarutz }
20363786Sarutz
20373786Sarutz
20383786Sarutz /*
20393786Sarutz * Unit start and Completion
20403786Sarutz * NOTE: we assume that the caller has at least checked for:
20413786Sarutz * (un->un_ncmds < un->un_throttle)
20423786Sarutz * if not, there is no real harm done, dcd_transport() will
20433786Sarutz * return BUSY
20443786Sarutz */
20453786Sarutz static void
dcdstart(struct dcd_disk * un)20463786Sarutz dcdstart(struct dcd_disk *un)
20473786Sarutz {
20483786Sarutz int status, sort_key;
20493786Sarutz struct buf *bp;
20503786Sarutz struct diskhd *dp;
20513786Sarutz uchar_t state = un->un_last_state;
20523786Sarutz
20533786Sarutz TRACE_1(TR_FAC_DADA, TR_DCDSTART_START, "dcdstart_start: un 0x%p", un);
20543786Sarutz
20553786Sarutz retry:
20563786Sarutz ASSERT(mutex_owned(DCD_MUTEX));
20573786Sarutz
20583786Sarutz dp = &un->un_utab;
20593786Sarutz if (((bp = dp->b_actf) == NULL) || (bp->av_back == ALLOCATING_PKT) ||
20603786Sarutz (dp->b_forw != NULL)) {
20613786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTART_NO_WORK_END,
20623786Sarutz "dcdstart_end (no work)");
20633786Sarutz return;
20643786Sarutz }
20653786Sarutz
20663786Sarutz /*
20673786Sarutz * remove from active queue
20683786Sarutz */
20693786Sarutz dp->b_actf = bp->b_actf;
20703786Sarutz bp->b_actf = 0;
20713786Sarutz
20723786Sarutz /*
20733786Sarutz * increment ncmds before calling dcd_transport because dcdintr
20743786Sarutz * may be called before we return from dcd_transport!
20753786Sarutz */
20763786Sarutz un->un_ncmds++;
20773786Sarutz
20783786Sarutz /*
20793786Sarutz * If measuring stats, mark exit from wait queue and
20803786Sarutz * entrance into run 'queue' if and only if we are
20813786Sarutz * going to actually start a command.
20823786Sarutz * Normally the bp already has a packet at this point
20833786Sarutz */
20843786Sarutz DCD_DO_KSTATS(un, kstat_waitq_to_runq, bp);
20853786Sarutz
20863786Sarutz mutex_exit(DCD_MUTEX);
20873786Sarutz
20883786Sarutz if (BP_HAS_NO_PKT(bp)) {
20893786Sarutz make_dcd_cmd(un, bp, dcdrunout);
20903786Sarutz if (BP_HAS_NO_PKT(bp) && !(bp->b_flags & B_ERROR)) {
20913786Sarutz mutex_enter(DCD_MUTEX);
20923786Sarutz DCD_DO_KSTATS(un, kstat_runq_back_to_waitq, bp);
20933786Sarutz
20943786Sarutz bp->b_actf = dp->b_actf;
20953786Sarutz dp->b_actf = bp;
20963786Sarutz New_state(un, DCD_STATE_RWAIT);
20973786Sarutz un->un_ncmds--;
20983786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTART_NO_RESOURCES_END,
20993786Sarutz "dcdstart_end (No Resources)");
21003786Sarutz goto done;
21013786Sarutz
21023786Sarutz } else if (bp->b_flags & B_ERROR) {
21033786Sarutz mutex_enter(DCD_MUTEX);
21043786Sarutz DCD_DO_KSTATS(un, kstat_runq_exit, bp);
21053786Sarutz
21063786Sarutz un->un_ncmds--;
21073786Sarutz bp->b_resid = bp->b_bcount;
21083786Sarutz if (bp->b_error == 0) {
21093786Sarutz SET_BP_ERROR(bp, EIO);
21103786Sarutz }
21113786Sarutz
21123786Sarutz /*
21133786Sarutz * restore old state
21143786Sarutz */
21153786Sarutz un->un_state = un->un_last_state;
21163786Sarutz un->un_last_state = state;
21173786Sarutz
21183786Sarutz mutex_exit(DCD_MUTEX);
21193786Sarutz
21203786Sarutz biodone(bp);
21213786Sarutz mutex_enter(DCD_MUTEX);
21223786Sarutz if (un->un_state == DCD_STATE_SUSPENDED) {
21233786Sarutz cv_broadcast(&un->un_disk_busy_cv);
21243786Sarutz }
21253786Sarutz
21263786Sarutz if ((un->un_ncmds < un->un_throttle) &&
21273786Sarutz (dp->b_forw == NULL)) {
21283786Sarutz goto retry;
21293786Sarutz } else {
21303786Sarutz goto done;
21313786Sarutz }
21323786Sarutz }
21333786Sarutz }
21343786Sarutz
21353786Sarutz /*
21363786Sarutz * Restore resid from the packet, b_resid had been the
21373786Sarutz * disksort key.
21383786Sarutz */
21393786Sarutz sort_key = bp->b_resid;
21403786Sarutz bp->b_resid = BP_PKT(bp)->pkt_resid;
21413786Sarutz BP_PKT(bp)->pkt_resid = 0;
21423786Sarutz
21433786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
21443786Sarutz "bp->b_resid %lx, pkt_resid %lx\n",
21453786Sarutz bp->b_resid, BP_PKT(bp)->pkt_resid);
21463786Sarutz
21473786Sarutz /*
21483786Sarutz * We used to check whether or not to try and link commands here.
21493786Sarutz * Since we have found that there is no performance improvement
21503786Sarutz * for linked commands, this has not made much sense.
21513786Sarutz */
21523786Sarutz if ((status = dcd_transport((struct dcd_pkt *)BP_PKT(bp)))
21533786Sarutz != TRAN_ACCEPT) {
21543786Sarutz mutex_enter(DCD_MUTEX);
21553786Sarutz un->un_ncmds--;
21563786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
21573786Sarutz "transport returned %x\n", status);
21583786Sarutz if (status == TRAN_BUSY) {
21593786Sarutz DCD_DO_ERRSTATS(un, dcd_transerrs);
21603786Sarutz DCD_DO_KSTATS(un, kstat_runq_back_to_waitq, bp);
21613786Sarutz dcd_handle_tran_busy(bp, dp, un);
21623786Sarutz if (un->un_ncmds > 0) {
21633786Sarutz bp->b_resid = sort_key;
21643786Sarutz }
21653786Sarutz } else {
21663786Sarutz DCD_DO_KSTATS(un, kstat_runq_exit, bp);
21673786Sarutz mutex_exit(DCD_MUTEX);
21683786Sarutz
21693786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
21703786Sarutz "transport rejected (%d)\n",
21713786Sarutz status);
21723786Sarutz SET_BP_ERROR(bp, EIO);
21733786Sarutz bp->b_resid = bp->b_bcount;
21743786Sarutz if (bp != un->un_sbufp) {
21753786Sarutz dcd_destroy_pkt(BP_PKT(bp));
21763786Sarutz }
21773786Sarutz biodone(bp);
21783786Sarutz
21793786Sarutz mutex_enter(DCD_MUTEX);
21803786Sarutz if (un->un_state == DCD_STATE_SUSPENDED) {
21813786Sarutz cv_broadcast(&un->un_disk_busy_cv);
21823786Sarutz }
21833786Sarutz if ((un->un_ncmds < un->un_throttle) &&
21843786Sarutz (dp->b_forw == NULL)) {
21853786Sarutz goto retry;
21863786Sarutz }
21873786Sarutz }
21883786Sarutz } else {
21893786Sarutz mutex_enter(DCD_MUTEX);
21903786Sarutz
21913786Sarutz if (dp->b_actf && BP_HAS_NO_PKT(dp->b_actf)) {
21923786Sarutz struct buf *cmd_bp;
21933786Sarutz
21943786Sarutz cmd_bp = dp->b_actf;
21953786Sarutz cmd_bp->av_back = ALLOCATING_PKT;
21963786Sarutz mutex_exit(DCD_MUTEX);
21973786Sarutz /*
21983786Sarutz * try and map this one
21993786Sarutz */
22003786Sarutz TRACE_0(TR_FAC_DADA, TR_DCASTART_SMALL_WINDOW_START,
22013786Sarutz "dcdstart_small_window_start");
22023786Sarutz
22033786Sarutz make_dcd_cmd(un, cmd_bp, NULL_FUNC);
22043786Sarutz
22053786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTART_SMALL_WINDOW_END,
22063786Sarutz "dcdstart_small_window_end");
22073786Sarutz /*
22083786Sarutz * there is a small window where the active cmd
22093786Sarutz * completes before make_dcd_cmd returns.
22103786Sarutz * consequently, this cmd never gets started so
22113786Sarutz * we start it from here
22123786Sarutz */
22133786Sarutz mutex_enter(DCD_MUTEX);
22143786Sarutz if ((un->un_ncmds < un->un_throttle) &&
22153786Sarutz (dp->b_forw == NULL)) {
22163786Sarutz goto retry;
22173786Sarutz }
22183786Sarutz }
22193786Sarutz }
22203786Sarutz
22213786Sarutz done:
22223786Sarutz ASSERT(mutex_owned(DCD_MUTEX));
22233786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDSTART_END, "dcdstart_end");
22243786Sarutz }
22253786Sarutz
22263786Sarutz /*
22273786Sarutz * make_dcd_cmd: create a pkt
22283786Sarutz */
22293786Sarutz static void
make_dcd_cmd(struct dcd_disk * un,struct buf * bp,int (* func)())22303786Sarutz make_dcd_cmd(struct dcd_disk *un, struct buf *bp, int (*func)())
22313786Sarutz {
22323786Sarutz auto int count, com, direction;
22333786Sarutz struct dcd_pkt *pkt;
22343786Sarutz int flags, tval;
22353786Sarutz
22363786Sarutz _NOTE(DATA_READABLE_WITHOUT_LOCK(dcd_disk::un_dp))
22373786Sarutz TRACE_3(TR_FAC_DADA, TR_MAKE_DCD_CMD_START,
22383786Sarutz "make_dcd_cmd_start: un 0x%p bp 0x%p un 0x%p", un, bp, un);
22393786Sarutz
22403786Sarutz
22413786Sarutz flags = un->un_cmd_flags;
22423786Sarutz
22433786Sarutz if (bp != un->un_sbufp) {
22443786Sarutz int partition = DCDPART(bp->b_edev);
22453786Sarutz diskaddr_t p_lblksrt;
22463786Sarutz diskaddr_t lblocks;
22473786Sarutz long secnt;
22483786Sarutz uint32_t blkno;
22493786Sarutz int dkl_nblk, delta;
22503786Sarutz long resid;
22513786Sarutz
22523786Sarutz if (cmlb_partinfo(un->un_dklbhandle,
22533786Sarutz partition,
22543786Sarutz &lblocks,
22553786Sarutz &p_lblksrt,
22563786Sarutz NULL,
22573786Sarutz NULL,
22583786Sarutz 0) != NULL) {
22593786Sarutz lblocks = 0;
22603786Sarutz p_lblksrt = 0;
22613786Sarutz }
22623786Sarutz
22633786Sarutz dkl_nblk = (int)lblocks;
22643786Sarutz
22653786Sarutz /*
22663786Sarutz * Make sure we don't run off the end of a partition.
22673786Sarutz *
22683786Sarutz * Put this test here so that we can adjust b_count
22693786Sarutz * to accurately reflect the actual amount we are
22703786Sarutz * goint to transfer.
22713786Sarutz */
22723786Sarutz
22733786Sarutz /*
22743786Sarutz * First, compute partition-relative block number
22753786Sarutz */
22763786Sarutz blkno = dkblock(bp);
22773786Sarutz secnt = (bp->b_bcount + (un->un_secsize - 1)) >> un->un_secdiv;
22783786Sarutz count = MIN(secnt, dkl_nblk - blkno);
22793786Sarutz if (count != secnt) {
22803786Sarutz /*
22813786Sarutz * We have an overrun
22823786Sarutz */
22833786Sarutz resid = (secnt - count) << un->un_secdiv;
22843786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
22853786Sarutz "overrun by %ld sectors\n",
22863786Sarutz secnt - count);
22873786Sarutz bp->b_bcount -= resid;
22883786Sarutz } else {
22893786Sarutz resid = 0;
22903786Sarutz }
22913786Sarutz
22923786Sarutz /*
22933786Sarutz * Adjust block number to absolute
22943786Sarutz */
22953786Sarutz delta = (int)p_lblksrt;
22963786Sarutz blkno += delta;
22973786Sarutz
22983786Sarutz mutex_enter(DCD_MUTEX);
22993786Sarutz /*
23003786Sarutz * This is for devices having block size different from
23013786Sarutz * from DEV_BSIZE (e.g. 2K CDROMs).
23023786Sarutz */
23033786Sarutz if (un->un_lbasize != un->un_secsize) {
23043786Sarutz blkno >>= un->un_blknoshift;
23053786Sarutz count >>= un->un_blknoshift;
23063786Sarutz }
23073786Sarutz mutex_exit(DCD_MUTEX);
23083786Sarutz
23093786Sarutz TRACE_0(TR_FAC_DADA, TR_MAKE_DCD_CMD_INIT_PKT_START,
23103786Sarutz "make_dcd_cmd_init_pkt_call (begin)");
23113786Sarutz pkt = dcd_init_pkt(ROUTE, NULL, bp,
23123786Sarutz (uint32_t)sizeof (struct dcd_cmd),
23133786Sarutz un->un_cmd_stat_size, PP_LEN, PKT_CONSISTENT,
23143786Sarutz func, (caddr_t)un);
23153786Sarutz TRACE_1(TR_FAC_DADA, TR_MAKE_DCD_CMD_INIT_PKT_END,
23163786Sarutz "make_dcd_cmd_init_pkt_call (end): pkt 0x%p", pkt);
23173786Sarutz if (!pkt) {
23183786Sarutz bp->b_bcount += resid;
23193786Sarutz bp->av_back = NO_PKT_ALLOCATED;
23203786Sarutz TRACE_0(TR_FAC_DADA,
23213786Sarutz TR_MAKE_DCD_CMD_NO_PKT_ALLOCATED1_END,
23223786Sarutz "make_dcd_cmd_end (NO_PKT_ALLOCATED1)");
23233786Sarutz return;
23243786Sarutz }
23253786Sarutz if (bp->b_flags & B_READ) {
23263786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) ==
23273786Sarutz DMA_SUPPORTTED) {
23283786Sarutz com = ATA_READ_DMA;
23293786Sarutz } else {
23303786Sarutz if (un->un_dp->options & BLOCK_MODE)
23313786Sarutz com = ATA_READ_MULTIPLE;
23323786Sarutz else
23333786Sarutz com = ATA_READ;
23343786Sarutz }
23353786Sarutz direction = DATA_READ;
23363786Sarutz } else {
23373786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) ==
23383786Sarutz DMA_SUPPORTTED) {
23393786Sarutz com = ATA_WRITE_DMA;
23403786Sarutz } else {
23413786Sarutz if (un->un_dp->options & BLOCK_MODE)
23423786Sarutz com = ATA_WRITE_MULTIPLE;
23433786Sarutz else
23443786Sarutz com = ATA_WRITE;
23453786Sarutz }
23463786Sarutz direction = DATA_WRITE;
23473786Sarutz }
23483786Sarutz
23493786Sarutz /*
23503786Sarutz * Save the resid in the packet, temporarily until
23513786Sarutz * we transport the command.
23523786Sarutz */
23533786Sarutz pkt->pkt_resid = resid;
23543786Sarutz
23553786Sarutz makecommand(pkt, flags, com, blkno, ADD_LBA_MODE,
23563786Sarutz bp->b_bcount, direction, 0);
23573786Sarutz tval = dcd_io_time;
23583786Sarutz } else {
23593786Sarutz
23603786Sarutz struct udcd_cmd *scmd = (struct udcd_cmd *)bp->b_forw;
23613786Sarutz
23623786Sarutz /*
23633786Sarutz * set options
23643786Sarutz */
23653786Sarutz if ((scmd->udcd_flags & UDCD_SILENT) && !(DEBUGGING)) {
23663786Sarutz flags |= FLAG_SILENT;
23673786Sarutz }
23683786Sarutz if (scmd->udcd_flags & UDCD_DIAGNOSE)
23693786Sarutz flags |= FLAG_DIAGNOSE;
23703786Sarutz
23713786Sarutz if (scmd->udcd_flags & UDCD_NOINTR)
23723786Sarutz flags |= FLAG_NOINTR;
23733786Sarutz
23743786Sarutz pkt = dcd_init_pkt(ROUTE, (struct dcd_pkt *)NULL,
23753786Sarutz (bp->b_bcount)? bp: NULL,
23763786Sarutz (uint32_t)sizeof (struct dcd_cmd),
23773786Sarutz 2, PP_LEN, PKT_CONSISTENT, func, (caddr_t)un);
23783786Sarutz
23793786Sarutz if (!pkt) {
23803786Sarutz bp->av_back = NO_PKT_ALLOCATED;
23813786Sarutz return;
23823786Sarutz }
23833786Sarutz
23843786Sarutz makecommand(pkt, 0, scmd->udcd_cmd->cmd,
23853786Sarutz scmd->udcd_cmd->sector_num.lba_num,
23863786Sarutz scmd->udcd_cmd->address_mode,
23873786Sarutz scmd->udcd_cmd->size,
23883786Sarutz scmd->udcd_cmd->direction, scmd->udcd_cmd->features);
23893786Sarutz
23903786Sarutz pkt->pkt_flags = flags;
23913786Sarutz if (scmd->udcd_timeout == 0)
23923786Sarutz tval = dcd_io_time;
23933786Sarutz else
23943786Sarutz tval = scmd->udcd_timeout;
23953786Sarutz /* UDAD interface should be decided. */
23963786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
23973786Sarutz "udcd interface\n");
23983786Sarutz }
23993786Sarutz
24003786Sarutz pkt->pkt_comp = dcdintr;
24013786Sarutz pkt->pkt_time = tval;
24023786Sarutz PKT_SET_BP(pkt, bp);
24033786Sarutz bp->av_back = (struct buf *)pkt;
24043786Sarutz
24053786Sarutz TRACE_0(TR_FAC_DADA, TR_MAKE_DCD_CMD_END, "make_dcd_cmd_end");
24063786Sarutz }
24073786Sarutz
24083786Sarutz /*
24093786Sarutz * Command completion processing
24103786Sarutz */
24113786Sarutz static void
dcdintr(struct dcd_pkt * pkt)24123786Sarutz dcdintr(struct dcd_pkt *pkt)
24133786Sarutz {
24143786Sarutz struct dcd_disk *un;
24153786Sarutz struct buf *bp;
24163786Sarutz int action;
24173786Sarutz int status;
24183786Sarutz
24193786Sarutz bp = PKT_GET_BP(pkt);
24203786Sarutz un = ddi_get_soft_state(dcd_state, DCDUNIT(bp->b_edev));
24213786Sarutz
24223786Sarutz TRACE_1(TR_FAC_DADA, TR_DCDINTR_START, "dcdintr_start: un 0x%p", un);
24233786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "dcdintr\n");
24243786Sarutz
24253786Sarutz mutex_enter(DCD_MUTEX);
24263786Sarutz un->un_ncmds--;
24273786Sarutz DCD_DO_KSTATS(un, kstat_runq_exit, bp);
24283786Sarutz ASSERT(un->un_ncmds >= 0);
24293786Sarutz
24303786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
24313786Sarutz "reason %x and Status %x\n", pkt->pkt_reason, SCBP_C(pkt));
24323786Sarutz
24333786Sarutz /*
24343786Sarutz * do most common case first
24353786Sarutz */
24363786Sarutz if ((pkt->pkt_reason == CMD_CMPLT) && (SCBP_C(pkt) == 0)) {
24373786Sarutz int com = GETATACMD((struct dcd_cmd *)pkt->pkt_cdbp);
24383786Sarutz
24393786Sarutz if (un->un_state == DCD_STATE_OFFLINE) {
24403786Sarutz un->un_state = un->un_last_state;
24413786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_NOTE,
24423786Sarutz (const char *) diskokay);
24433786Sarutz }
24443786Sarutz /*
24453786Sarutz * If the command is a read or a write, and we have
24463786Sarutz * a non-zero pkt_resid, that is an error. We should
24473786Sarutz * attempt to retry the operation if possible.
24483786Sarutz */
24493786Sarutz action = COMMAND_DONE;
24503786Sarutz if (pkt->pkt_resid && (com == ATA_READ || com == ATA_WRITE)) {
24513786Sarutz DCD_DO_ERRSTATS(un, dcd_harderrs);
24523786Sarutz if ((int)PKT_GET_RETRY_CNT(pkt) < dcd_retry_count) {
24533786Sarutz PKT_INCR_RETRY_CNT(pkt, 1);
24543786Sarutz action = QUE_COMMAND;
24553786Sarutz } else {
24563786Sarutz /*
24573786Sarutz * if we have exhausted retries
24583786Sarutz * a command with a residual is in error in
24593786Sarutz * this case.
24603786Sarutz */
24613786Sarutz action = COMMAND_DONE_ERROR;
24623786Sarutz }
24633786Sarutz dcd_log(DCD_DEVINFO, dcd_label,
24643786Sarutz CE_WARN, "incomplete %s- %s\n",
24653786Sarutz (bp->b_flags & B_READ)? "read" : "write",
24663786Sarutz (action == QUE_COMMAND)? "retrying" :
24673786Sarutz "giving up");
24683786Sarutz }
24693786Sarutz
24703786Sarutz /*
24713786Sarutz * pkt_resid will reflect, at this point, a residual
24723786Sarutz * of how many bytes left to be transferred there were
24733786Sarutz * from the actual scsi command. Add this to b_resid i.e
24743786Sarutz * the amount this driver could not see to transfer,
24753786Sarutz * to get the total number of bytes not transfered.
24763786Sarutz */
24773786Sarutz if (action != QUE_COMMAND) {
24783786Sarutz bp->b_resid += pkt->pkt_resid;
24793786Sarutz }
24803786Sarutz
24813786Sarutz } else if (pkt->pkt_reason != CMD_CMPLT) {
24823786Sarutz action = dcd_handle_incomplete(un, bp);
24833786Sarutz }
24843786Sarutz
24853786Sarutz /*
24863786Sarutz * If we are in the middle of syncing or dumping, we have got
24873786Sarutz * here because dcd_transport has called us explictly after
24883786Sarutz * completing the command in a polled mode. We don't want to
24893786Sarutz * have a recursive call into dcd_transport again.
24903786Sarutz */
24913786Sarutz if (ddi_in_panic() && (action == QUE_COMMAND)) {
24923786Sarutz action = COMMAND_DONE_ERROR;
24933786Sarutz }
24943786Sarutz
24953786Sarutz /*
24963786Sarutz * save pkt reason; consecutive failures are not reported unless
24973786Sarutz * fatal
24983786Sarutz * do not reset last_pkt_reason when the cmd was retried and
24993786Sarutz * succeeded because
25003786Sarutz * there maybe more commands comming back with last_pkt_reason
25013786Sarutz */
25023786Sarutz if ((un->un_last_pkt_reason != pkt->pkt_reason) &&
25033786Sarutz ((pkt->pkt_reason != CMD_CMPLT) ||
25043786Sarutz (PKT_GET_RETRY_CNT(pkt) == 0))) {
25053786Sarutz un->un_last_pkt_reason = pkt->pkt_reason;
25063786Sarutz }
25073786Sarutz
25083786Sarutz switch (action) {
25093786Sarutz case COMMAND_DONE_ERROR:
25103786Sarutz error:
25113786Sarutz if (bp->b_resid == 0) {
25123786Sarutz bp->b_resid = bp->b_bcount;
25133786Sarutz }
25143786Sarutz if (bp->b_error == 0) {
25153786Sarutz struct dcd_cmd *cdbp = (struct dcd_cmd *)pkt->pkt_cdbp;
25163786Sarutz if (cdbp->cmd == ATA_FLUSH_CACHE &&
25173786Sarutz (pkt->pkt_scbp[0] & STATUS_ATA_ERR) &&
25183786Sarutz (pkt->pkt_scbp[1] & ERR_ABORT)) {
25193786Sarutz SET_BP_ERROR(bp, ENOTSUP);
25203786Sarutz un->un_flush_not_supported = 1;
25213786Sarutz } else {
25223786Sarutz SET_BP_ERROR(bp, EIO);
25233786Sarutz }
25243786Sarutz }
25253786Sarutz bp->b_flags |= B_ERROR;
25263786Sarutz /*FALLTHROUGH*/
25273786Sarutz case COMMAND_DONE:
25283786Sarutz dcddone_and_mutex_exit(un, bp);
25293786Sarutz
25303786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDINTR_COMMAND_DONE_END,
25313786Sarutz "dcdintr_end (COMMAND_DONE)");
25323786Sarutz return;
25333786Sarutz
25343786Sarutz case QUE_COMMAND:
25353786Sarutz if (un->un_ncmds >= un->un_throttle) {
25363786Sarutz struct diskhd *dp = &un->un_utab;
25373786Sarutz
25383786Sarutz bp->b_actf = dp->b_actf;
25393786Sarutz dp->b_actf = bp;
25403786Sarutz
25413786Sarutz DCD_DO_KSTATS(un, kstat_waitq_enter, bp);
25423786Sarutz
25433786Sarutz mutex_exit(DCD_MUTEX);
25443786Sarutz goto exit;
25453786Sarutz }
25463786Sarutz
25473786Sarutz un->un_ncmds++;
25483786Sarutz /* reset the pkt reason again */
25493786Sarutz pkt->pkt_reason = 0;
25503786Sarutz DCD_DO_KSTATS(un, kstat_runq_enter, bp);
25513786Sarutz mutex_exit(DCD_MUTEX);
25523786Sarutz if ((status = dcd_transport(BP_PKT(bp))) != TRAN_ACCEPT) {
25533786Sarutz struct diskhd *dp = &un->un_utab;
25543786Sarutz
25553786Sarutz mutex_enter(DCD_MUTEX);
25563786Sarutz un->un_ncmds--;
25573786Sarutz if (status == TRAN_BUSY) {
25583786Sarutz DCD_DO_KSTATS(un, kstat_runq_back_to_waitq, bp);
25593786Sarutz dcd_handle_tran_busy(bp, dp, un);
25603786Sarutz mutex_exit(DCD_MUTEX);
25613786Sarutz goto exit;
25623786Sarutz }
25633786Sarutz DCD_DO_ERRSTATS(un, dcd_transerrs);
25643786Sarutz DCD_DO_KSTATS(un, kstat_runq_exit, bp);
25653786Sarutz
25663786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
25673786Sarutz "requeue of command fails (%x)\n", status);
25683786Sarutz SET_BP_ERROR(bp, EIO);
25693786Sarutz bp->b_resid = bp->b_bcount;
25703786Sarutz
25713786Sarutz dcddone_and_mutex_exit(un, bp);
25723786Sarutz goto exit;
25733786Sarutz }
25743786Sarutz break;
25753786Sarutz
25763786Sarutz case JUST_RETURN:
25773786Sarutz default:
25783786Sarutz DCD_DO_KSTATS(un, kstat_waitq_enter, bp);
25793786Sarutz mutex_exit(DCD_MUTEX);
25803786Sarutz break;
25813786Sarutz }
25823786Sarutz
25833786Sarutz exit:
25843786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDINTR_END, "dcdintr_end");
25853786Sarutz }
25863786Sarutz
25873786Sarutz
25883786Sarutz /*
25893786Sarutz * Done with a command.
25903786Sarutz */
25913786Sarutz static void
dcddone_and_mutex_exit(struct dcd_disk * un,register struct buf * bp)25923786Sarutz dcddone_and_mutex_exit(struct dcd_disk *un, register struct buf *bp)
25933786Sarutz {
25943786Sarutz struct diskhd *dp;
25953786Sarutz
25963786Sarutz TRACE_1(TR_FAC_DADA, TR_DCDONE_START, "dcddone_start: un 0x%p", un);
25973786Sarutz
25983786Sarutz _NOTE(LOCK_RELEASED_AS_SIDE_EFFECT(&un->un_dcd->dcd_mutex));
25993786Sarutz
26003786Sarutz dp = &un->un_utab;
26013786Sarutz if (bp == dp->b_forw) {
26023786Sarutz dp->b_forw = NULL;
26033786Sarutz }
26043786Sarutz
26053786Sarutz if (un->un_stats) {
26063786Sarutz ulong_t n_done = bp->b_bcount - bp->b_resid;
26073786Sarutz if (bp->b_flags & B_READ) {
26083786Sarutz IOSP->reads++;
26093786Sarutz IOSP->nread += n_done;
26103786Sarutz } else {
26113786Sarutz IOSP->writes++;
26123786Sarutz IOSP->nwritten += n_done;
26133786Sarutz }
26143786Sarutz }
26153786Sarutz if (IO_PARTITION_STATS) {
26163786Sarutz ulong_t n_done = bp->b_bcount - bp->b_resid;
26173786Sarutz if (bp->b_flags & B_READ) {
26183786Sarutz IOSP_PARTITION->reads++;
26193786Sarutz IOSP_PARTITION->nread += n_done;
26203786Sarutz } else {
26213786Sarutz IOSP_PARTITION->writes++;
26223786Sarutz IOSP_PARTITION->nwritten += n_done;
26233786Sarutz }
26243786Sarutz }
26253786Sarutz
26263786Sarutz /*
26273786Sarutz * Start the next one before releasing resources on this one
26283786Sarutz */
26293786Sarutz if (un->un_state == DCD_STATE_SUSPENDED) {
26303786Sarutz cv_broadcast(&un->un_disk_busy_cv);
26313786Sarutz } else if (dp->b_actf && (un->un_ncmds < un->un_throttle) &&
26323786Sarutz (dp->b_forw == NULL && un->un_state != DCD_STATE_SUSPENDED)) {
26333786Sarutz dcdstart(un);
26343786Sarutz }
26353786Sarutz
26363786Sarutz mutex_exit(DCD_MUTEX);
26373786Sarutz
26383786Sarutz if (bp != un->un_sbufp) {
26393786Sarutz dcd_destroy_pkt(BP_PKT(bp));
26403786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
26413786Sarutz "regular done: resid %ld\n", bp->b_resid);
26423786Sarutz } else {
26433786Sarutz ASSERT(un->un_sbuf_busy);
26443786Sarutz }
26453786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDDONE_BIODONE_CALL, "dcddone_biodone_call");
26463786Sarutz
26473786Sarutz biodone(bp);
26483786Sarutz
26493786Sarutz (void) pm_idle_component(DCD_DEVINFO, 0);
26503786Sarutz
26513786Sarutz TRACE_0(TR_FAC_DADA, TR_DCDDONE_END, "dcddone end");
26523786Sarutz }
26533786Sarutz
26543786Sarutz
26553786Sarutz /*
26563786Sarutz * reset the disk unless the transport layer has already
26573786Sarutz * cleared the problem
26583786Sarutz */
26593786Sarutz #define C1 (STAT_ATA_BUS_RESET|STAT_ATA_DEV_RESET|STAT_ATA_ABORTED)
26603786Sarutz static void
dcd_reset_disk(struct dcd_disk * un,struct dcd_pkt * pkt)26613786Sarutz dcd_reset_disk(struct dcd_disk *un, struct dcd_pkt *pkt)
26623786Sarutz {
26633786Sarutz
26643786Sarutz if ((pkt->pkt_statistics & C1) == 0) {
26653786Sarutz mutex_exit(DCD_MUTEX);
26663786Sarutz if (!dcd_reset(ROUTE, RESET_ALL)) {
26673786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
26683786Sarutz "Reset failed");
26693786Sarutz }
26703786Sarutz mutex_enter(DCD_MUTEX);
26713786Sarutz }
26723786Sarutz }
26733786Sarutz
26743786Sarutz static int
dcd_handle_incomplete(struct dcd_disk * un,struct buf * bp)26753786Sarutz dcd_handle_incomplete(struct dcd_disk *un, struct buf *bp)
26763786Sarutz {
26773786Sarutz static char *fail = "ATA transport failed: reason '%s': %s\n";
26783786Sarutz static char *notresp = "disk not responding to selection\n";
26793786Sarutz int rval = COMMAND_DONE_ERROR;
26803786Sarutz int action = COMMAND_SOFT_ERROR;
26813786Sarutz struct dcd_pkt *pkt = BP_PKT(bp);
26823786Sarutz int be_chatty = (un->un_state != DCD_STATE_SUSPENDED) &&
26833786Sarutz (bp != un->un_sbufp || !(pkt->pkt_flags & FLAG_SILENT));
26843786Sarutz
26853786Sarutz ASSERT(mutex_owned(DCD_MUTEX));
26863786Sarutz
26873786Sarutz switch (pkt->pkt_reason) {
26883786Sarutz
26893786Sarutz case CMD_TIMEOUT:
26903786Sarutz /*
26913786Sarutz * This Indicates the already the HBA would have reset
26923786Sarutz * so Just indicate to retry the command
26933786Sarutz */
26943786Sarutz break;
26953786Sarutz
26963786Sarutz case CMD_INCOMPLETE:
26973786Sarutz action = dcd_check_error(un, bp);
26983786Sarutz DCD_DO_ERRSTATS(un, dcd_transerrs);
26994137Skc28005 if (action == COMMAND_HARD_ERROR) {
27004137Skc28005 (void) dcd_reset_disk(un, pkt);
27014137Skc28005 }
27023786Sarutz break;
27033786Sarutz
27043786Sarutz case CMD_FATAL:
27053786Sarutz /*
27063786Sarutz * Something drastic has gone wrong
27073786Sarutz */
27083786Sarutz break;
27093786Sarutz case CMD_DMA_DERR:
27103786Sarutz case CMD_DATA_OVR:
27113786Sarutz /* FALLTHROUGH */
27123786Sarutz
27133786Sarutz default:
27143786Sarutz /*
27153786Sarutz * the target may still be running the command,
27163786Sarutz * so we should try and reset that target.
27173786Sarutz */
27183786Sarutz DCD_DO_ERRSTATS(un, dcd_transerrs);
27193786Sarutz if ((pkt->pkt_reason != CMD_RESET) &&
27207224Scth (pkt->pkt_reason != CMD_ABORTED)) {
27213786Sarutz (void) dcd_reset_disk(un, pkt);
27223786Sarutz }
27233786Sarutz break;
27243786Sarutz }
27253786Sarutz
27263786Sarutz /*
27273786Sarutz * If pkt_reason is CMD_RESET/ABORTED, chances are that this pkt got
27283786Sarutz * reset/aborted because another disk on this bus caused it.
27293786Sarutz * The disk that caused it, should get CMD_TIMEOUT with pkt_statistics
27303786Sarutz * of STAT_TIMEOUT/STAT_DEV_RESET
27313786Sarutz */
27323786Sarutz if ((pkt->pkt_reason == CMD_RESET) ||(pkt->pkt_reason == CMD_ABORTED)) {
27333786Sarutz /* To be written : XXX */
27343786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
27353786Sarutz "Command aborted\n");
27363786Sarutz }
27373786Sarutz
27383786Sarutz if (bp == un->un_sbufp && (pkt->pkt_flags & FLAG_DIAGNOSE)) {
27393786Sarutz rval = COMMAND_DONE_ERROR;
27403786Sarutz } else {
27413786Sarutz if ((rval == COMMAND_DONE_ERROR) &&
27423786Sarutz (action == COMMAND_SOFT_ERROR) &&
27433786Sarutz ((int)PKT_GET_RETRY_CNT(pkt) < dcd_retry_count)) {
27443786Sarutz PKT_INCR_RETRY_CNT(pkt, 1);
27453786Sarutz rval = QUE_COMMAND;
27463786Sarutz }
27473786Sarutz }
27483786Sarutz
27493786Sarutz if (pkt->pkt_reason == CMD_INCOMPLETE && rval == COMMAND_DONE_ERROR) {
27503786Sarutz /*
27513786Sarutz * Looks like someone turned off this shoebox.
27523786Sarutz */
27533786Sarutz if (un->un_state != DCD_STATE_OFFLINE) {
27543786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
27557224Scth (const char *) notresp);
27563786Sarutz New_state(un, DCD_STATE_OFFLINE);
27573786Sarutz }
27583786Sarutz } else if (pkt->pkt_reason == CMD_FATAL) {
27593786Sarutz /*
27603786Sarutz * Suppressing the following message for the time being
27613786Sarutz * dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
27623786Sarutz * (const char *) notresp);
27633786Sarutz */
27643786Sarutz PKT_INCR_RETRY_CNT(pkt, 6);
27653786Sarutz rval = COMMAND_DONE_ERROR;
27663786Sarutz New_state(un, DCD_STATE_FATAL);
27673786Sarutz } else if (be_chatty) {
27683786Sarutz int in_panic = ddi_in_panic();
27693786Sarutz if (!in_panic || (rval == COMMAND_DONE_ERROR)) {
27703786Sarutz if (((pkt->pkt_reason != un->un_last_pkt_reason) &&
27713786Sarutz (pkt->pkt_reason != CMD_RESET)) ||
27723786Sarutz (rval == COMMAND_DONE_ERROR) ||
27733786Sarutz (dcd_error_level == DCD_ERR_ALL)) {
27743786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
27753786Sarutz fail, dcd_rname(pkt->pkt_reason),
27763786Sarutz (rval == COMMAND_DONE_ERROR) ?
27773786Sarutz "giving up": "retrying command");
27783786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
27793786Sarutz "retrycount=%x\n",
27803786Sarutz PKT_GET_RETRY_CNT(pkt));
27813786Sarutz }
27823786Sarutz }
27833786Sarutz }
27843786Sarutz error:
27853786Sarutz return (rval);
27863786Sarutz }
27873786Sarutz
27883786Sarutz static int
dcd_check_error(struct dcd_disk * un,struct buf * bp)27893786Sarutz dcd_check_error(struct dcd_disk *un, struct buf *bp)
27903786Sarutz {
27913786Sarutz struct diskhd *dp = &un->un_utab;
27923786Sarutz struct dcd_pkt *pkt = BP_PKT(bp);
27933786Sarutz int rval = 0;
27943786Sarutz unsigned char status;
27953786Sarutz unsigned char error;
27963786Sarutz
27973786Sarutz TRACE_0(TR_FAC_DADA, TR_DCD_CHECK_ERROR_START, "dcd_check_error_start");
27983786Sarutz ASSERT(mutex_owned(DCD_MUTEX));
27993786Sarutz
28003786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
28013786Sarutz "Pkt: 0x%p dp: 0x%p\n", (void *)pkt, (void *)dp);
28023786Sarutz
28033786Sarutz /*
28043786Sarutz * Here we need to check status first and then if error is indicated
28053786Sarutz * Then the error register.
28063786Sarutz */
28073786Sarutz
28083786Sarutz status = (pkt->pkt_scbp)[0];
28093786Sarutz if ((status & STATUS_ATA_DWF) == STATUS_ATA_DWF) {
28103786Sarutz /*
28113786Sarutz * There has been a Device Fault - reason for such error
28123786Sarutz * is vendor specific
28133786Sarutz * Action to be taken is - Indicate error and reset device.
28143786Sarutz */
28153786Sarutz
28163786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN, "Device Fault\n");
28173786Sarutz rval = COMMAND_HARD_ERROR;
28183786Sarutz } else if ((status & STATUS_ATA_CORR) == STATUS_ATA_CORR) {
28193786Sarutz
28203786Sarutz /*
28213786Sarutz * The sector read or written is marginal and hence ECC
28223786Sarutz * Correction has been applied. Indicate to repair
28233786Sarutz * Here we need to probably re-assign based on the badblock
28243786Sarutz * mapping.
28253786Sarutz */
28263786Sarutz
28273786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28283786Sarutz "Soft Error on block %x\n",
28293786Sarutz ((struct dcd_cmd *)pkt->pkt_cdbp)->sector_num.lba_num);
28303786Sarutz rval = COMMAND_SOFT_ERROR;
28313786Sarutz } else if ((status & STATUS_ATA_ERR) == STATUS_ATA_ERR) {
28323786Sarutz error = pkt->pkt_scbp[1];
28333786Sarutz
28343786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28353786Sarutz "Command:0x%x,Error:0x%x,Status:0x%x\n",
28363786Sarutz GETATACMD((struct dcd_cmd *)pkt->pkt_cdbp),
28373786Sarutz error, status);
28383786Sarutz if ((error & ERR_AMNF) == ERR_AMNF) {
28393786Sarutz /* Address make not found */
28403786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28413786Sarutz "Address Mark Not Found");
28423786Sarutz } else if ((error & ERR_TKONF) == ERR_TKONF) {
28433786Sarutz /* Track 0 Not found */
28443786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28453786Sarutz "Track 0 Not found \n");
28463786Sarutz } else if ((error & ERR_IDNF) == ERR_IDNF) {
28473786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28483786Sarutz " ID not found \n");
28493786Sarutz } else if ((error & ERR_UNC) == ERR_UNC) {
28503786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28513786Sarutz "Uncorrectable data Error: Block %x\n",
28527224Scth ((struct dcd_cmd *)pkt->pkt_cdbp)->
28537224Scth sector_num.lba_num);
28543786Sarutz } else if ((error & ERR_BBK) == ERR_BBK) {
28553786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28563786Sarutz "Bad block detected: Block %x\n",
28577224Scth ((struct dcd_cmd *)pkt->pkt_cdbp)->
28587224Scth sector_num.lba_num);
28593786Sarutz } else if ((error & ERR_ABORT) == ERR_ABORT) {
28603786Sarutz /* Aborted Command */
28613786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
28623786Sarutz " Aborted Command \n");
28633786Sarutz }
28643786Sarutz /*
28653786Sarutz * Return the soft error so that the command
28663786Sarutz * will be retried.
28673786Sarutz */
28683786Sarutz rval = COMMAND_SOFT_ERROR;
28693786Sarutz }
28703786Sarutz
28713786Sarutz TRACE_0(TR_FAC_DADA, TR_DCD_CHECK_ERROR_END, "dcd_check_error_end");
28723786Sarutz return (rval);
28733786Sarutz }
28743786Sarutz
28753786Sarutz
28763786Sarutz /*
28773786Sarutz * System Crash Dump routine
28783786Sarutz */
28793786Sarutz
28803786Sarutz #define NDUMP_RETRIES 5
28813786Sarutz
28823786Sarutz static int
dcddump(dev_t dev,caddr_t addr,daddr_t blkno,int nblk)28833786Sarutz dcddump(dev_t dev, caddr_t addr, daddr_t blkno, int nblk)
28843786Sarutz {
28853786Sarutz struct dcd_pkt *pkt;
28863786Sarutz int i;
28873786Sarutz struct buf local, *bp;
28883786Sarutz int err;
28893786Sarutz unsigned char com;
28903786Sarutz diskaddr_t p_lblksrt;
28913786Sarutz diskaddr_t lblocks;
28923786Sarutz
28933786Sarutz GET_SOFT_STATE(dev);
28943786Sarutz #ifdef lint
28953786Sarutz part = part;
28963786Sarutz #endif /* lint */
28973786Sarutz
28983786Sarutz _NOTE(NOW_INVISIBLE_TO_OTHER_THREADS(*un))
28993786Sarutz
29003786Sarutz if ((un->un_state & DCD_STATE_FATAL) == DCD_STATE_FATAL)
29013786Sarutz return (ENXIO);
29023786Sarutz
29033786Sarutz if (cmlb_partinfo(un->un_dklbhandle, DCDPART(dev),
29043786Sarutz &lblocks, &p_lblksrt, NULL, NULL, 0))
29053786Sarutz return (ENXIO);
29063786Sarutz
29073786Sarutz if (blkno+nblk > lblocks) {
29083786Sarutz return (EINVAL);
29093786Sarutz }
29103786Sarutz
29113786Sarutz
29123786Sarutz if ((un->un_state == DCD_STATE_SUSPENDED) ||
29133786Sarutz (un->un_state == DCD_STATE_PM_SUSPENDED)) {
29143786Sarutz if (pm_raise_power(DCD_DEVINFO, 0,
29153786Sarutz DCD_DEVICE_ACTIVE) != DDI_SUCCESS) {
29163786Sarutz return (EIO);
29173786Sarutz }
29183786Sarutz }
29193786Sarutz
29203786Sarutz /*
29213786Sarutz * When cpr calls dcddump, we know that dad is in a
29223786Sarutz * a good state, so no bus reset is required
29233786Sarutz */
29243786Sarutz un->un_throttle = 0;
29253786Sarutz
29263786Sarutz if ((un->un_state != DCD_STATE_SUSPENDED) &&
29273786Sarutz (un->un_state != DCD_STATE_DUMPING)) {
29283786Sarutz
29293786Sarutz New_state(un, DCD_STATE_DUMPING);
29303786Sarutz
29313786Sarutz /*
29323786Sarutz * Reset the bus. I'd like to not have to do this,
29333786Sarutz * but this is the safest thing to do...
29343786Sarutz */
29353786Sarutz
29363786Sarutz if (dcd_reset(ROUTE, RESET_ALL) == 0) {
29373786Sarutz return (EIO);
29383786Sarutz }
29393786Sarutz
29403786Sarutz }
29413786Sarutz
29423786Sarutz blkno += p_lblksrt;
29433786Sarutz
29443786Sarutz /*
29453786Sarutz * It should be safe to call the allocator here without
29463786Sarutz * worrying about being locked for DVMA mapping because
29473786Sarutz * the address we're passed is already a DVMA mapping
29483786Sarutz *
29493786Sarutz * We are also not going to worry about semaphore ownership
29503786Sarutz * in the dump buffer. Dumping is single threaded at present.
29513786Sarutz */
29523786Sarutz
29533786Sarutz bp = &local;
29543786Sarutz bzero((caddr_t)bp, sizeof (*bp));
29553786Sarutz bp->b_flags = B_BUSY;
29563786Sarutz bp->b_un.b_addr = addr;
29573786Sarutz bp->b_bcount = nblk << DEV_BSHIFT;
29583786Sarutz bp->b_resid = 0;
29593786Sarutz
29603786Sarutz for (i = 0; i < NDUMP_RETRIES; i++) {
29613786Sarutz bp->b_flags &= ~B_ERROR;
29623786Sarutz if ((pkt = dcd_init_pkt(ROUTE, NULL, bp,
29633786Sarutz (uint32_t)sizeof (struct dcd_cmd), 2, PP_LEN,
29643786Sarutz PKT_CONSISTENT, NULL_FUNC, NULL)) != NULL) {
29653786Sarutz break;
29663786Sarutz }
29673786Sarutz if (i == 0) {
29683786Sarutz if (bp->b_flags & B_ERROR) {
29693786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
29703786Sarutz "no resources for dumping; "
29713786Sarutz "error code: 0x%x, retrying",
29723786Sarutz geterror(bp));
29733786Sarutz } else {
29743786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
29753786Sarutz "no resources for dumping; retrying");
29763786Sarutz }
29773786Sarutz } else if (i != (NDUMP_RETRIES - 1)) {
29783786Sarutz if (bp->b_flags & B_ERROR) {
29793786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_CONT, "no "
29803786Sarutz "resources for dumping; error code: 0x%x, "
29813786Sarutz "retrying\n", geterror(bp));
29823786Sarutz }
29833786Sarutz } else {
29843786Sarutz if (bp->b_flags & B_ERROR) {
29853786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_CONT,
29863786Sarutz "no resources for dumping; "
29873786Sarutz "error code: 0x%x, retries failed, "
29883786Sarutz "giving up.\n", geterror(bp));
29893786Sarutz } else {
29903786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_CONT,
29913786Sarutz "no resources for dumping; "
29923786Sarutz "retries failed, giving up.\n");
29933786Sarutz }
29943786Sarutz return (EIO);
29953786Sarutz }
29963786Sarutz delay(10);
29973786Sarutz }
29983786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) == DMA_SUPPORTTED) {
29993786Sarutz com = ATA_WRITE_DMA;
30003786Sarutz } else {
30013786Sarutz if (un->un_dp->options & BLOCK_MODE)
30023786Sarutz com = ATA_WRITE_MULTIPLE;
30033786Sarutz else
30043786Sarutz com = ATA_WRITE;
30053786Sarutz }
30063786Sarutz
30073786Sarutz makecommand(pkt, 0, com, blkno, ADD_LBA_MODE,
30083786Sarutz (int)nblk*un->un_secsize, DATA_WRITE, 0);
30093786Sarutz
30103786Sarutz for (err = EIO, i = 0; i < NDUMP_RETRIES && err == EIO; i++) {
30113786Sarutz
30123786Sarutz if (dcd_poll(pkt) == 0) {
30133786Sarutz switch (SCBP_C(pkt)) {
30143786Sarutz case STATUS_GOOD:
30153786Sarutz if (pkt->pkt_resid == 0) {
30163786Sarutz err = 0;
30173786Sarutz }
30183786Sarutz break;
30193786Sarutz case STATUS_ATA_BUSY:
30203786Sarutz (void) dcd_reset(ROUTE, RESET_TARGET);
30213786Sarutz break;
30223786Sarutz default:
30233786Sarutz mutex_enter(DCD_MUTEX);
30243786Sarutz (void) dcd_reset_disk(un, pkt);
30253786Sarutz mutex_exit(DCD_MUTEX);
30263786Sarutz break;
30273786Sarutz }
30283786Sarutz } else if (i > NDUMP_RETRIES/2) {
30293786Sarutz (void) dcd_reset(ROUTE, RESET_ALL);
30303786Sarutz }
30313786Sarutz
30323786Sarutz }
30333786Sarutz dcd_destroy_pkt(pkt);
30343786Sarutz return (err);
30353786Sarutz }
30363786Sarutz
30373786Sarutz /*
30383786Sarutz * This routine implements the ioctl calls. It is called
30393786Sarutz * from the device switch at normal priority.
30403786Sarutz */
30413786Sarutz /* ARGSUSED3 */
30423786Sarutz static int
dcdioctl(dev_t dev,int cmd,intptr_t arg,int flag,cred_t * cred_p,int * rval_p)30433786Sarutz dcdioctl(dev_t dev, int cmd, intptr_t arg, int flag,
30443786Sarutz cred_t *cred_p, int *rval_p)
30453786Sarutz {
30463786Sarutz auto int32_t data[512 / (sizeof (int32_t))];
30473786Sarutz struct dk_cinfo *info;
30483786Sarutz struct dk_minfo media_info;
30493786Sarutz struct udcd_cmd *scmd;
30503786Sarutz int i, err;
30513786Sarutz enum uio_seg uioseg = 0;
30523786Sarutz enum dkio_state state = 0;
30533786Sarutz #ifdef _MULTI_DATAMODEL
30543786Sarutz struct dadkio_rwcmd rwcmd;
30553786Sarutz #endif
30563786Sarutz struct dadkio_rwcmd32 rwcmd32;
30573786Sarutz struct dcd_cmd dcdcmd;
30583786Sarutz
30593786Sarutz GET_SOFT_STATE(dev);
30603786Sarutz #ifdef lint
30613786Sarutz part = part;
30623786Sarutz state = state;
30633786Sarutz uioseg = uioseg;
30643786Sarutz #endif /* lint */
30653786Sarutz
30663786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
30673786Sarutz "dcd_ioctl : cmd %x, arg %lx\n", cmd, arg);
30683786Sarutz
30693786Sarutz bzero((caddr_t)data, sizeof (data));
30703786Sarutz
30713786Sarutz switch (cmd) {
30723786Sarutz
30733786Sarutz #ifdef DCDDEBUG
30743786Sarutz /*
30753786Sarutz * Following ioctl are for testing RESET/ABORTS
30763786Sarutz */
30773786Sarutz #define DKIOCRESET (DKIOC|14)
30783786Sarutz #define DKIOCABORT (DKIOC|15)
30793786Sarutz
30803786Sarutz case DKIOCRESET:
30813786Sarutz if (ddi_copyin((caddr_t)arg, (caddr_t)data, 4, flag))
30823786Sarutz return (EFAULT);
30833786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
30843786Sarutz "DKIOCRESET: data = 0x%x\n", data[0]);
30853786Sarutz if (dcd_reset(ROUTE, data[0])) {
30863786Sarutz return (0);
30873786Sarutz } else {
30883786Sarutz return (EIO);
30893786Sarutz }
30903786Sarutz case DKIOCABORT:
30913786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG,
30923786Sarutz "DKIOCABORT:\n");
30933786Sarutz if (dcd_abort(ROUTE, (struct dcd_pkt *)0)) {
30943786Sarutz return (0);
30953786Sarutz } else {
30963786Sarutz return (EIO);
30973786Sarutz }
30983786Sarutz #endif
30993786Sarutz
31003786Sarutz case DKIOCINFO:
31013786Sarutz /*
31023786Sarutz * Controller Information
31033786Sarutz */
31043786Sarutz info = (struct dk_cinfo *)data;
31053786Sarutz
31063786Sarutz mutex_enter(DCD_MUTEX);
31073786Sarutz switch (un->un_dp->ctype) {
31083786Sarutz default:
31093786Sarutz info->dki_ctype = DKC_DIRECT;
31103786Sarutz break;
31113786Sarutz }
31123786Sarutz mutex_exit(DCD_MUTEX);
31133786Sarutz info->dki_cnum = ddi_get_instance(ddi_get_parent(DCD_DEVINFO));
31143786Sarutz (void) strcpy(info->dki_cname,
31153786Sarutz ddi_get_name(ddi_get_parent(DCD_DEVINFO)));
31163786Sarutz /*
31173786Sarutz * Unit Information
31183786Sarutz */
31193786Sarutz info->dki_unit = ddi_get_instance(DCD_DEVINFO);
31203786Sarutz info->dki_slave = (Tgt(DCD_DCD_DEVP)<<3);
31213786Sarutz (void) strcpy(info->dki_dname, ddi_driver_name(DCD_DEVINFO));
31223786Sarutz info->dki_flags = DKI_FMTVOL;
31233786Sarutz info->dki_partition = DCDPART(dev);
31243786Sarutz
31253786Sarutz /*
31263786Sarutz * Max Transfer size of this device in blocks
31273786Sarutz */
31283786Sarutz info->dki_maxtransfer = un->un_max_xfer_size / DEV_BSIZE;
31293786Sarutz
31303786Sarutz /*
31313786Sarutz * We can't get from here to there yet
31323786Sarutz */
31333786Sarutz info->dki_addr = 0;
31343786Sarutz info->dki_space = 0;
31353786Sarutz info->dki_prio = 0;
31363786Sarutz info->dki_vec = 0;
31373786Sarutz
31383786Sarutz i = sizeof (struct dk_cinfo);
31393786Sarutz if (ddi_copyout((caddr_t)data, (caddr_t)arg, i, flag))
31403786Sarutz return (EFAULT);
31413786Sarutz else
31423786Sarutz return (0);
31433786Sarutz
31443786Sarutz case DKIOCGMEDIAINFO:
31453786Sarutz /*
31463786Sarutz * As dad target driver is used for IDE disks only
31473786Sarutz * Can keep the return value hardcoded to FIXED_DISK
31483786Sarutz */
31493786Sarutz media_info.dki_media_type = DK_FIXED_DISK;
31503786Sarutz
31513786Sarutz mutex_enter(DCD_MUTEX);
31523786Sarutz media_info.dki_lbsize = un->un_lbasize;
31533786Sarutz media_info.dki_capacity = un->un_diskcapacity;
31543786Sarutz mutex_exit(DCD_MUTEX);
31553786Sarutz
31563786Sarutz if (ddi_copyout(&media_info, (caddr_t)arg,
31573786Sarutz sizeof (struct dk_minfo), flag))
31583786Sarutz return (EFAULT);
31593786Sarutz else
31603786Sarutz return (0);
31613786Sarutz
31623786Sarutz case DKIOCGGEOM:
31633786Sarutz case DKIOCGVTOC:
31643786Sarutz case DKIOCGETEFI:
31653786Sarutz
31663786Sarutz mutex_enter(DCD_MUTEX);
31673786Sarutz if (un->un_ncmds == 0) {
31683786Sarutz if ((err = dcd_unit_ready(dev)) != 0) {
31693786Sarutz mutex_exit(DCD_MUTEX);
31703786Sarutz return (err);
31713786Sarutz }
31723786Sarutz }
31733786Sarutz
31743786Sarutz mutex_exit(DCD_MUTEX);
31753786Sarutz err = cmlb_ioctl(un->un_dklbhandle, dev, cmd,
31763786Sarutz arg, flag, cred_p, rval_p, 0);
31773786Sarutz return (err);
31783786Sarutz
31793786Sarutz case DKIOCGAPART:
31803786Sarutz case DKIOCSAPART:
31813786Sarutz case DKIOCSGEOM:
31823786Sarutz case DKIOCSVTOC:
31833786Sarutz case DKIOCSETEFI:
31843786Sarutz case DKIOCPARTITION:
31853786Sarutz case DKIOCPARTINFO:
31863786Sarutz case DKIOCGMBOOT:
31873786Sarutz case DKIOCSMBOOT:
31883786Sarutz
31893786Sarutz err = cmlb_ioctl(un->un_dklbhandle, dev, cmd,
31903786Sarutz arg, flag, cred_p, rval_p, 0);
31913786Sarutz return (err);
31923786Sarutz
31933786Sarutz case DIOCTL_RWCMD:
31943786Sarutz if (drv_priv(cred_p) != 0) {
31953786Sarutz return (EPERM);
31963786Sarutz }
31973786Sarutz
31983786Sarutz #ifdef _MULTI_DATAMODEL
31993786Sarutz switch (ddi_model_convert_from(flag & FMODELS)) {
32003786Sarutz case DDI_MODEL_NONE:
32013786Sarutz if (ddi_copyin((caddr_t)arg, (caddr_t)&rwcmd,
32023786Sarutz sizeof (struct dadkio_rwcmd), flag)) {
32033786Sarutz return (EFAULT);
32043786Sarutz }
32053786Sarutz rwcmd32.cmd = rwcmd.cmd;
32063786Sarutz rwcmd32.flags = rwcmd.flags;
32073786Sarutz rwcmd32.blkaddr = rwcmd.blkaddr;
32083786Sarutz rwcmd32.buflen = rwcmd.buflen;
32093786Sarutz rwcmd32.bufaddr = (caddr32_t)(uintptr_t)rwcmd.bufaddr;
32103786Sarutz break;
32113786Sarutz case DDI_MODEL_ILP32:
32123786Sarutz if (ddi_copyin((caddr_t)arg, (caddr_t)&rwcmd32,
32133786Sarutz sizeof (struct dadkio_rwcmd32), flag)) {
32143786Sarutz return (EFAULT);
32153786Sarutz }
32163786Sarutz break;
32173786Sarutz }
32183786Sarutz #else
32193786Sarutz if (ddi_copyin((caddr_t)arg, (caddr_t)&rwcmd32,
32203786Sarutz sizeof (struct dadkio_rwcmd32), flag)) {
32213786Sarutz return (EFAULT);
32223786Sarutz }
32233786Sarutz #endif
32243786Sarutz mutex_enter(DCD_MUTEX);
32253786Sarutz
32263786Sarutz uioseg = UIO_SYSSPACE;
32273786Sarutz scmd = (struct udcd_cmd *)data;
32283786Sarutz scmd->udcd_cmd = &dcdcmd;
32293786Sarutz /*
32303786Sarutz * Convert the dadkio_rwcmd structure to udcd_cmd so that
32313786Sarutz * it can take the normal path to get the io done
32323786Sarutz */
32333786Sarutz if (rwcmd32.cmd == DADKIO_RWCMD_READ) {
32343786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) ==
32353786Sarutz DMA_SUPPORTTED)
32363786Sarutz scmd->udcd_cmd->cmd = ATA_READ_DMA;
32373786Sarutz else
32383786Sarutz scmd->udcd_cmd->cmd = ATA_READ;
32393786Sarutz scmd->udcd_cmd->address_mode = ADD_LBA_MODE;
32403786Sarutz scmd->udcd_cmd->direction = DATA_READ;
32413786Sarutz scmd->udcd_flags |= UDCD_READ|UDCD_SILENT;
32423786Sarutz } else if (rwcmd32.cmd == DADKIO_RWCMD_WRITE) {
32433786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) ==
32443786Sarutz DMA_SUPPORTTED)
32453786Sarutz scmd->udcd_cmd->cmd = ATA_WRITE_DMA;
32463786Sarutz else
32473786Sarutz scmd->udcd_cmd->cmd = ATA_WRITE;
32483786Sarutz scmd->udcd_cmd->direction = DATA_WRITE;
32493786Sarutz scmd->udcd_flags |= UDCD_WRITE|UDCD_SILENT;
32503786Sarutz } else {
32513786Sarutz mutex_exit(DCD_MUTEX);
32523786Sarutz return (EINVAL);
32533786Sarutz }
32543786Sarutz
32553786Sarutz scmd->udcd_cmd->address_mode = ADD_LBA_MODE;
32563786Sarutz scmd->udcd_cmd->features = 0;
32573786Sarutz scmd->udcd_cmd->size = rwcmd32.buflen;
32583786Sarutz scmd->udcd_cmd->sector_num.lba_num = rwcmd32.blkaddr;
32593786Sarutz scmd->udcd_bufaddr = (caddr_t)(uintptr_t)rwcmd32.bufaddr;
32603786Sarutz scmd->udcd_buflen = rwcmd32.buflen;
32613786Sarutz scmd->udcd_timeout = (ushort_t)dcd_io_time;
32623786Sarutz scmd->udcd_resid = 0ULL;
32633786Sarutz scmd->udcd_status = 0;
32643786Sarutz scmd->udcd_error_reg = 0;
32653786Sarutz scmd->udcd_status_reg = 0;
32663786Sarutz
32673786Sarutz mutex_exit(DCD_MUTEX);
32683786Sarutz
32693786Sarutz i = dcdioctl_cmd(dev, scmd, UIO_SYSSPACE, UIO_USERSPACE);
32703786Sarutz mutex_enter(DCD_MUTEX);
32713786Sarutz /*
32723786Sarutz * After return convert the status from scmd to
32733786Sarutz * dadkio_status
32743786Sarutz */
32753786Sarutz (void) dcd_translate(&(rwcmd32.status), scmd);
32763786Sarutz rwcmd32.status.resid = scmd->udcd_resid;
32773786Sarutz mutex_exit(DCD_MUTEX);
32783786Sarutz
32793786Sarutz #ifdef _MULTI_DATAMODEL
32803786Sarutz switch (ddi_model_convert_from(flag & FMODELS)) {
32813786Sarutz case DDI_MODEL_NONE: {
32823786Sarutz int counter;
32833786Sarutz rwcmd.status.status = rwcmd32.status.status;
32843786Sarutz rwcmd.status.resid = rwcmd32.status.resid;
32853786Sarutz rwcmd.status.failed_blk_is_valid =
32863786Sarutz rwcmd32.status.failed_blk_is_valid;
32873786Sarutz rwcmd.status.failed_blk = rwcmd32.status.failed_blk;
32883786Sarutz rwcmd.status.fru_code_is_valid =
32893786Sarutz rwcmd32.status.fru_code_is_valid;
32903786Sarutz rwcmd.status.fru_code = rwcmd32.status.fru_code;
32913786Sarutz for (counter = 0;
32923786Sarutz counter < DADKIO_ERROR_INFO_LEN; counter++)
32933786Sarutz rwcmd.status.add_error_info[counter] =
32943786Sarutz rwcmd32.status.add_error_info[counter];
32953786Sarutz }
32963786Sarutz /* Copy out the result back to the user program */
32973786Sarutz if (ddi_copyout((caddr_t)&rwcmd, (caddr_t)arg,
32983786Sarutz sizeof (struct dadkio_rwcmd), flag)) {
32993786Sarutz if (i != 0) {
33003786Sarutz i = EFAULT;
33013786Sarutz }
33023786Sarutz }
33033786Sarutz break;
33043786Sarutz case DDI_MODEL_ILP32:
33053786Sarutz /* Copy out the result back to the user program */
33063786Sarutz if (ddi_copyout((caddr_t)&rwcmd32, (caddr_t)arg,
33073786Sarutz sizeof (struct dadkio_rwcmd32), flag)) {
33083786Sarutz if (i != 0) {
33093786Sarutz i = EFAULT;
33103786Sarutz }
33113786Sarutz }
33123786Sarutz break;
33133786Sarutz }
33143786Sarutz #else
33153786Sarutz /* Copy out the result back to the user program */
33163786Sarutz if (ddi_copyout((caddr_t)&rwcmd32, (caddr_t)arg,
33173786Sarutz sizeof (struct dadkio_rwcmd32), flag)) {
33183786Sarutz if (i != 0)
33193786Sarutz i = EFAULT;
33203786Sarutz }
33213786Sarutz #endif
33223786Sarutz return (i);
33233786Sarutz
33243786Sarutz case UDCDCMD: {
33253786Sarutz #ifdef _MULTI_DATAMODEL
33263786Sarutz /*
33273786Sarutz * For use when a 32 bit app makes a call into a
33283786Sarutz * 64 bit ioctl
33293786Sarutz */
33303786Sarutz struct udcd_cmd32 udcd_cmd_32_for_64;
33313786Sarutz struct udcd_cmd32 *ucmd32 = &udcd_cmd_32_for_64;
33323786Sarutz model_t model;
33333786Sarutz #endif /* _MULTI_DATAMODEL */
33343786Sarutz
33353786Sarutz if (drv_priv(cred_p) != 0) {
33363786Sarutz return (EPERM);
33373786Sarutz }
33383786Sarutz
33393786Sarutz scmd = (struct udcd_cmd *)data;
33403786Sarutz
33413786Sarutz #ifdef _MULTI_DATAMODEL
33423786Sarutz switch (model = ddi_model_convert_from(flag & FMODELS)) {
33433786Sarutz case DDI_MODEL_ILP32:
33443786Sarutz if (ddi_copyin((caddr_t)arg, ucmd32,
33453786Sarutz sizeof (struct udcd_cmd32), flag)) {
33463786Sarutz return (EFAULT);
33473786Sarutz }
33483786Sarutz /*
33493786Sarutz * Convert the ILP32 uscsi data from the
33503786Sarutz * application to LP64 for internal use.
33513786Sarutz */
33523786Sarutz udcd_cmd32toudcd_cmd(ucmd32, scmd);
33533786Sarutz break;
33543786Sarutz case DDI_MODEL_NONE:
33553786Sarutz if (ddi_copyin((caddr_t)arg, scmd, sizeof (*scmd),
33563786Sarutz flag)) {
33573786Sarutz return (EFAULT);
33583786Sarutz }
33593786Sarutz break;
33603786Sarutz }
33613786Sarutz #else /* ! _MULTI_DATAMODEL */
33623786Sarutz if (ddi_copyin((caddr_t)arg, (caddr_t)scmd,
33633786Sarutz sizeof (*scmd), flag)) {
33643786Sarutz return (EFAULT);
33653786Sarutz }
33663786Sarutz #endif /* ! _MULTI_DATAMODEL */
33673786Sarutz
33683786Sarutz scmd->udcd_flags &= ~UDCD_NOINTR;
33693786Sarutz uioseg = (flag & FKIOCTL)? UIO_SYSSPACE: UIO_USERSPACE;
33703786Sarutz
33713786Sarutz i = dcdioctl_cmd(dev, scmd, uioseg, uioseg);
33723786Sarutz #ifdef _MULTI_DATAMODEL
33733786Sarutz switch (model) {
33743786Sarutz case DDI_MODEL_ILP32:
33753786Sarutz /*
33763786Sarutz * Convert back to ILP32 before copyout to the
33773786Sarutz * application
33783786Sarutz */
33793786Sarutz udcd_cmdtoudcd_cmd32(scmd, ucmd32);
33803786Sarutz if (ddi_copyout(ucmd32, (caddr_t)arg,
33813786Sarutz sizeof (*ucmd32), flag)) {
33823786Sarutz if (i != 0)
33833786Sarutz i = EFAULT;
33843786Sarutz }
33853786Sarutz break;
33863786Sarutz case DDI_MODEL_NONE:
33873786Sarutz if (ddi_copyout(scmd, (caddr_t)arg, sizeof (*scmd),
33883786Sarutz flag)) {
33893786Sarutz if (i != 0)
33903786Sarutz i = EFAULT;
33913786Sarutz }
33923786Sarutz break;
33933786Sarutz }
33943786Sarutz #else /* ! _MULTI_DATAMODE */
33953786Sarutz if (ddi_copyout((caddr_t)scmd, (caddr_t)arg,
33963786Sarutz sizeof (*scmd), flag)) {
33973786Sarutz if (i != 0)
33983786Sarutz i = EFAULT;
33993786Sarutz }
34003786Sarutz #endif
34013786Sarutz return (i);
34023786Sarutz }
34033786Sarutz case DKIOCFLUSHWRITECACHE: {
34043786Sarutz struct dk_callback *dkc = (struct dk_callback *)arg;
34053786Sarutz struct dcd_pkt *pkt;
34063786Sarutz struct buf *bp;
34073786Sarutz int is_sync = 1;
34083786Sarutz
34093786Sarutz mutex_enter(DCD_MUTEX);
34103786Sarutz if (un->un_flush_not_supported ||
34113786Sarutz ! un->un_write_cache_enabled) {
34123786Sarutz i = un->un_flush_not_supported ? ENOTSUP : 0;
34133786Sarutz mutex_exit(DCD_MUTEX);
34143786Sarutz /*
34153786Sarutz * If a callback was requested: a callback will
34163786Sarutz * always be done if the caller saw the
34173786Sarutz * DKIOCFLUSHWRITECACHE ioctl return 0, and
34183786Sarutz * never done if the caller saw the ioctl return
34193786Sarutz * an error.
34203786Sarutz */
34213786Sarutz if ((flag & FKIOCTL) && dkc != NULL &&
34223786Sarutz dkc->dkc_callback != NULL) {
34233786Sarutz (*dkc->dkc_callback)(dkc->dkc_cookie, i);
34243786Sarutz /*
34253786Sarutz * Did callback and reported error.
34263786Sarutz * Since we did a callback, ioctl
34273786Sarutz * should return 0.
34283786Sarutz */
34293786Sarutz i = 0;
34303786Sarutz }
34313786Sarutz return (i);
34323786Sarutz }
34333786Sarutz
34343786Sarutz /*
34353786Sarutz * Get the special buffer
34363786Sarutz */
34373786Sarutz while (un->un_sbuf_busy) {
34383786Sarutz cv_wait(&un->un_sbuf_cv, DCD_MUTEX);
34393786Sarutz }
34403786Sarutz un->un_sbuf_busy = 1;
34413786Sarutz bp = un->un_sbufp;
34423786Sarutz mutex_exit(DCD_MUTEX);
34433786Sarutz
34443786Sarutz pkt = dcd_init_pkt(ROUTE, (struct dcd_pkt *)NULL,
34453786Sarutz NULL, (uint32_t)sizeof (struct dcd_cmd),
34463786Sarutz 2, PP_LEN, PKT_CONSISTENT, SLEEP_FUNC, (caddr_t)un);
34473786Sarutz ASSERT(pkt != NULL);
34483786Sarutz
34493786Sarutz makecommand(pkt, un->un_cmd_flags | FLAG_SILENT,
34503786Sarutz ATA_FLUSH_CACHE, 0, ADD_LBA_MODE, 0, NO_DATA_XFER, 0);
34513786Sarutz
34523786Sarutz pkt->pkt_comp = dcdintr;
34533786Sarutz pkt->pkt_time = DCD_FLUSH_TIME;
34543786Sarutz PKT_SET_BP(pkt, bp);
34553786Sarutz
34563786Sarutz bp->av_back = (struct buf *)pkt;
34573786Sarutz bp->b_forw = NULL;
34583786Sarutz bp->b_flags = B_BUSY;
34593786Sarutz bp->b_error = 0;
34603786Sarutz bp->b_edev = dev;
34613786Sarutz bp->b_dev = cmpdev(dev);
34623786Sarutz bp->b_bcount = 0;
34633786Sarutz bp->b_blkno = 0;
34643786Sarutz bp->b_un.b_addr = 0;
34653786Sarutz bp->b_iodone = NULL;
34663786Sarutz bp->b_list = NULL;
3467*12684STom.Erickson@Sun.COM bp->b_private = NULL;
34683786Sarutz
34693786Sarutz if ((flag & FKIOCTL) && dkc != NULL &&
34703786Sarutz dkc->dkc_callback != NULL) {
34713786Sarutz struct dk_callback *dkc2 = (struct dk_callback *)
34723786Sarutz kmem_zalloc(sizeof (*dkc2), KM_SLEEP);
34733786Sarutz bcopy(dkc, dkc2, sizeof (*dkc2));
34743786Sarutz
3475*12684STom.Erickson@Sun.COM bp->b_private = dkc2;
34763786Sarutz bp->b_iodone = dcdflushdone;
34773786Sarutz is_sync = 0;
34783786Sarutz }
34793786Sarutz
34803786Sarutz (void) dcdstrategy(bp);
34813786Sarutz
34823786Sarutz i = 0;
34833786Sarutz if (is_sync) {
34843786Sarutz i = biowait(bp);
34853786Sarutz (void) dcdflushdone(bp);
34863786Sarutz }
34873786Sarutz
34883786Sarutz return (i);
34893786Sarutz }
34903786Sarutz default:
34913786Sarutz break;
34923786Sarutz }
34933786Sarutz return (ENOTTY);
34943786Sarutz }
34953786Sarutz
34963786Sarutz
34973786Sarutz static int
dcdflushdone(struct buf * bp)34983786Sarutz dcdflushdone(struct buf *bp)
34993786Sarutz {
35003786Sarutz struct dcd_disk *un = ddi_get_soft_state(dcd_state,
35013786Sarutz DCDUNIT(bp->b_edev));
35023786Sarutz struct dcd_pkt *pkt = BP_PKT(bp);
3503*12684STom.Erickson@Sun.COM struct dk_callback *dkc = bp->b_private;
35043786Sarutz
35053786Sarutz ASSERT(un != NULL);
35063786Sarutz ASSERT(bp == un->un_sbufp);
35073786Sarutz ASSERT(pkt != NULL);
35083786Sarutz
35093786Sarutz dcd_destroy_pkt(pkt);
35103786Sarutz bp->av_back = NO_PKT_ALLOCATED;
35113786Sarutz
35123786Sarutz if (dkc != NULL) {
35133786Sarutz ASSERT(bp->b_iodone != NULL);
35143786Sarutz (*dkc->dkc_callback)(dkc->dkc_cookie, geterror(bp));
35153786Sarutz kmem_free(dkc, sizeof (*dkc));
35163786Sarutz bp->b_iodone = NULL;
3517*12684STom.Erickson@Sun.COM bp->b_private = NULL;
35183786Sarutz }
35193786Sarutz
35203786Sarutz /*
35213786Sarutz * Tell anybody who cares that the buffer is now free
35223786Sarutz */
35233786Sarutz mutex_enter(DCD_MUTEX);
35243786Sarutz un->un_sbuf_busy = 0;
35253786Sarutz cv_signal(&un->un_sbuf_cv);
35263786Sarutz mutex_exit(DCD_MUTEX);
35273786Sarutz return (0);
35283786Sarutz }
35293786Sarutz
35303786Sarutz /*
35313786Sarutz * dcdrunout:
35323786Sarutz * the callback function for resource allocation
35333786Sarutz *
35343786Sarutz * XXX it would be preferable that dcdrunout() scans the whole
35353786Sarutz * list for possible candidates for dcdstart(); this avoids
35363786Sarutz * that a bp at the head of the list whose request cannot be
35373786Sarutz * satisfied is retried again and again
35383786Sarutz */
35393786Sarutz /*ARGSUSED*/
35403786Sarutz static int
dcdrunout(caddr_t arg)35413786Sarutz dcdrunout(caddr_t arg)
35423786Sarutz {
35433786Sarutz int serviced;
35443786Sarutz struct dcd_disk *un;
35453786Sarutz struct diskhd *dp;
35463786Sarutz
35473786Sarutz TRACE_1(TR_FAC_DADA, TR_DCDRUNOUT_START, "dcdrunout_start: arg 0x%p",
35483786Sarutz arg);
35493786Sarutz serviced = 1;
35503786Sarutz
35513786Sarutz un = (struct dcd_disk *)arg;
35523786Sarutz dp = &un->un_utab;
35533786Sarutz
35543786Sarutz /*
35553786Sarutz * We now support passing a structure to the callback
35563786Sarutz * routine.
35573786Sarutz */
35583786Sarutz ASSERT(un != NULL);
35593786Sarutz mutex_enter(DCD_MUTEX);
35603786Sarutz if ((un->un_ncmds < un->un_throttle) && (dp->b_forw == NULL)) {
35613786Sarutz dcdstart(un);
35623786Sarutz }
35633786Sarutz if (un->un_state == DCD_STATE_RWAIT) {
35643786Sarutz serviced = 0;
35653786Sarutz }
35663786Sarutz mutex_exit(DCD_MUTEX);
35673786Sarutz TRACE_1(TR_FAC_DADA, TR_DCDRUNOUT_END,
35683786Sarutz "dcdrunout_end: serviced %d", serviced);
35693786Sarutz return (serviced);
35703786Sarutz }
35713786Sarutz
35723786Sarutz
35733786Sarutz /*
35743786Sarutz * This routine called to see whether unit is (still) there. Must not
35753786Sarutz * be called when un->un_sbufp is in use, and must not be called with
35763786Sarutz * an unattached disk. Soft state of disk is restored to what it was
35773786Sarutz * upon entry- up to caller to set the correct state.
35783786Sarutz *
35793786Sarutz * We enter with the disk mutex held.
35803786Sarutz */
35813786Sarutz
35823786Sarutz /* ARGSUSED0 */
35833786Sarutz static int
dcd_unit_ready(dev_t dev)35843786Sarutz dcd_unit_ready(dev_t dev)
35853786Sarutz {
35863786Sarutz #ifndef lint
35873786Sarutz auto struct udcd_cmd dcmd, *com = &dcmd;
35883786Sarutz auto struct dcd_cmd cmdblk;
35893786Sarutz #endif
35903786Sarutz int error;
35913786Sarutz #ifndef lint
35923786Sarutz GET_SOFT_STATE(dev);
35933786Sarutz #endif
35943786Sarutz
35953786Sarutz /*
35963786Sarutz * Now that we protect the special buffer with
35973786Sarutz * a mutex, we could probably do a mutex_tryenter
35983786Sarutz * on it here and return failure if it were held...
35993786Sarutz */
36003786Sarutz
36013786Sarutz error = 0;
36023786Sarutz return (error);
36033786Sarutz }
36043786Sarutz
36053786Sarutz /* ARGSUSED0 */
36063786Sarutz int
dcdioctl_cmd(dev_t devp,struct udcd_cmd * in,enum uio_seg cdbspace,enum uio_seg dataspace)36073786Sarutz dcdioctl_cmd(dev_t devp, struct udcd_cmd *in, enum uio_seg cdbspace,
36083786Sarutz enum uio_seg dataspace)
36093786Sarutz {
36103786Sarutz
36113786Sarutz struct buf *bp;
36123786Sarutz struct udcd_cmd *scmd;
36133786Sarutz struct dcd_pkt *pkt;
36143786Sarutz int err, rw;
36153786Sarutz caddr_t cdb;
36163786Sarutz int flags = 0;
36173786Sarutz
36183786Sarutz GET_SOFT_STATE(devp);
36193786Sarutz
36203786Sarutz #ifdef lint
36213786Sarutz part = part;
36223786Sarutz #endif
36233786Sarutz
36243786Sarutz /*
36253786Sarutz * Is this a request to reset the bus?
36263786Sarutz * if so, we need to do reseting.
36273786Sarutz */
36283786Sarutz
36293786Sarutz if (in->udcd_flags & UDCD_RESET) {
36303786Sarutz int flag = RESET_TARGET;
36313786Sarutz err = dcd_reset(ROUTE, flag) ? 0: EIO;
36323786Sarutz return (err);
36333786Sarutz }
36343786Sarutz
36353786Sarutz scmd = in;
36363786Sarutz
36373786Sarutz
36383786Sarutz /* Do some sanity checks */
36393786Sarutz if (scmd->udcd_buflen <= 0) {
36403786Sarutz if (scmd->udcd_flags & (UDCD_READ | UDCD_WRITE)) {
36413786Sarutz return (EINVAL);
36423786Sarutz } else {
36433786Sarutz scmd->udcd_buflen = 0;
36443786Sarutz }
36453786Sarutz }
36463786Sarutz
36473786Sarutz /* Make a copy of the dcd_cmd passed */
36483786Sarutz cdb = kmem_zalloc(sizeof (struct dcd_cmd), KM_SLEEP);
36493786Sarutz if (cdbspace == UIO_SYSSPACE) {
36503786Sarutz flags |= FKIOCTL;
36513786Sarutz }
36523786Sarutz
36533786Sarutz if (ddi_copyin((void *)scmd->udcd_cmd, cdb, sizeof (struct dcd_cmd),
36543786Sarutz flags)) {
36553786Sarutz kmem_free(cdb, sizeof (struct dcd_cmd));
36563786Sarutz return (EFAULT);
36573786Sarutz }
36583786Sarutz scmd = (struct udcd_cmd *)kmem_alloc(sizeof (*scmd), KM_SLEEP);
36593786Sarutz bcopy((caddr_t)in, (caddr_t)scmd, sizeof (*scmd));
36603786Sarutz scmd->udcd_cmd = (struct dcd_cmd *)cdb;
36613786Sarutz rw = (scmd->udcd_flags & UDCD_READ) ? B_READ: B_WRITE;
36623786Sarutz
36633786Sarutz
36643786Sarutz /*
36653786Sarutz * Get the special buffer
36663786Sarutz */
36673786Sarutz
36683786Sarutz mutex_enter(DCD_MUTEX);
36693786Sarutz while (un->un_sbuf_busy) {
36703786Sarutz if (cv_wait_sig(&un->un_sbuf_cv, DCD_MUTEX) == 0) {
36713786Sarutz kmem_free(scmd->udcd_cmd, sizeof (struct dcd_cmd));
36723786Sarutz kmem_free((caddr_t)scmd, sizeof (*scmd));
36733786Sarutz mutex_exit(DCD_MUTEX);
36743786Sarutz return (EINTR);
36753786Sarutz }
36763786Sarutz }
36773786Sarutz
36783786Sarutz un->un_sbuf_busy = 1;
36793786Sarutz bp = un->un_sbufp;
36803786Sarutz mutex_exit(DCD_MUTEX);
36813786Sarutz
36823786Sarutz
36833786Sarutz /*
36843786Sarutz * If we are going to do actual I/O, let physio do all the
36853786Sarutz * things
36863786Sarutz */
36873786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
36883786Sarutz "dcdioctl_cmd : buflen %x\n", scmd->udcd_buflen);
36893786Sarutz
36903786Sarutz if (scmd->udcd_buflen) {
36913786Sarutz auto struct iovec aiov;
36923786Sarutz auto struct uio auio;
36933786Sarutz struct uio *uio = &auio;
36943786Sarutz
36953786Sarutz bzero((caddr_t)&auio, sizeof (struct uio));
36963786Sarutz bzero((caddr_t)&aiov, sizeof (struct iovec));
36973786Sarutz
36983786Sarutz aiov.iov_base = scmd->udcd_bufaddr;
36993786Sarutz aiov.iov_len = scmd->udcd_buflen;
37003786Sarutz
37013786Sarutz uio->uio_iov = &aiov;
37023786Sarutz uio->uio_iovcnt = 1;
37033786Sarutz uio->uio_resid = scmd->udcd_buflen;
37043786Sarutz uio->uio_segflg = dataspace;
37053786Sarutz
37063786Sarutz /*
37073786Sarutz * Let physio do the rest...
37083786Sarutz */
37093786Sarutz bp->av_back = NO_PKT_ALLOCATED;
37103786Sarutz bp->b_forw = (struct buf *)scmd;
37113786Sarutz err = physio(dcdstrategy, bp, devp, rw, dcdudcdmin, uio);
37123786Sarutz } else {
37133786Sarutz /*
37143786Sarutz * We have to mimic what physio would do here.
37153786Sarutz */
37163786Sarutz bp->av_back = NO_PKT_ALLOCATED;
37173786Sarutz bp->b_forw = (struct buf *)scmd;
37183786Sarutz bp->b_flags = B_BUSY | rw;
37193786Sarutz bp->b_edev = devp;
37203786Sarutz bp->b_dev = cmpdev(devp);
37213786Sarutz bp->b_bcount = bp->b_blkno = 0;
37223786Sarutz (void) dcdstrategy(bp);
37233786Sarutz err = biowait(bp);
37243786Sarutz }
37253786Sarutz
37263786Sarutz done:
37273786Sarutz if ((pkt = BP_PKT(bp)) != NULL) {
37283786Sarutz bp->av_back = NO_PKT_ALLOCATED;
37293786Sarutz /* we need to update the completion status of udcd command */
37303786Sarutz in->udcd_resid = bp->b_resid;
37313786Sarutz in->udcd_status_reg = SCBP_C(pkt);
37323786Sarutz /* XXX: we need to give error_reg also */
37333786Sarutz dcd_destroy_pkt(pkt);
37343786Sarutz }
37353786Sarutz /*
37363786Sarutz * Tell anybody who cares that the buffer is now free
37373786Sarutz */
37383786Sarutz mutex_enter(DCD_MUTEX);
37393786Sarutz un->un_sbuf_busy = 0;
37403786Sarutz cv_signal(&un->un_sbuf_cv);
37413786Sarutz mutex_exit(DCD_MUTEX);
37423786Sarutz
37433786Sarutz kmem_free(scmd->udcd_cmd, sizeof (struct dcd_cmd));
37443786Sarutz kmem_free((caddr_t)scmd, sizeof (*scmd));
37453786Sarutz return (err);
37463786Sarutz }
37473786Sarutz
37483786Sarutz static void
dcdudcdmin(struct buf * bp)37493786Sarutz dcdudcdmin(struct buf *bp)
37503786Sarutz {
37513786Sarutz
37523786Sarutz #ifdef lint
37533786Sarutz bp = bp;
37543786Sarutz #endif
37553786Sarutz
37563786Sarutz }
37573786Sarutz
37583786Sarutz /*
37593786Sarutz * restart a cmd from timeout() context
37603786Sarutz *
37613786Sarutz * the cmd is expected to be in un_utab.b_forw. If this pointer is non-zero
37623786Sarutz * a restart timeout request has been issued and no new timeouts should
37633786Sarutz * be requested. b_forw is reset when the cmd eventually completes in
37643786Sarutz * dcddone_and_mutex_exit()
37653786Sarutz */
37663786Sarutz void
dcdrestart(void * arg)37673786Sarutz dcdrestart(void *arg)
37683786Sarutz {
37693786Sarutz struct dcd_disk *un = (struct dcd_disk *)arg;
37703786Sarutz struct buf *bp;
37713786Sarutz int status;
37723786Sarutz
37733786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG, "dcdrestart\n");
37743786Sarutz
37753786Sarutz mutex_enter(DCD_MUTEX);
37763786Sarutz bp = un->un_utab.b_forw;
37773786Sarutz if (bp) {
37783786Sarutz un->un_ncmds++;
37793786Sarutz DCD_DO_KSTATS(un, kstat_waitq_to_runq, bp);
37803786Sarutz }
37813786Sarutz
37823786Sarutz
37833786Sarutz if (bp) {
37843786Sarutz struct dcd_pkt *pkt = BP_PKT(bp);
37853786Sarutz
37863786Sarutz mutex_exit(DCD_MUTEX);
37873786Sarutz
37883786Sarutz pkt->pkt_flags = 0;
37893786Sarutz
37903786Sarutz if ((status = dcd_transport(pkt)) != TRAN_ACCEPT) {
37913786Sarutz mutex_enter(DCD_MUTEX);
37923786Sarutz DCD_DO_KSTATS(un, kstat_runq_back_to_waitq, bp);
37933786Sarutz un->un_ncmds--;
37943786Sarutz if (status == TRAN_BUSY) {
37953786Sarutz /* XXX : To be checked */
37963786Sarutz /*
37973786Sarutz * if (un->un_throttle > 1) {
37983786Sarutz * ASSERT(un->un_ncmds >= 0);
37993786Sarutz * un->un_throttle = un->un_ncmds;
38003786Sarutz * }
38013786Sarutz */
38023786Sarutz un->un_reissued_timeid =
38037224Scth timeout(dcdrestart, (caddr_t)un,
38043786Sarutz DCD_BSY_TIMEOUT/500);
38053786Sarutz mutex_exit(DCD_MUTEX);
38063786Sarutz return;
38073786Sarutz }
38083786Sarutz DCD_DO_ERRSTATS(un, dcd_transerrs);
38093786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
38103786Sarutz "dcdrestart transport failed (%x)\n", status);
38113786Sarutz bp->b_resid = bp->b_bcount;
38123786Sarutz SET_BP_ERROR(bp, EIO);
38133786Sarutz
38143786Sarutz DCD_DO_KSTATS(un, kstat_waitq_exit, bp);
38153786Sarutz un->un_reissued_timeid = 0L;
38163786Sarutz dcddone_and_mutex_exit(un, bp);
38173786Sarutz return;
38183786Sarutz }
38193786Sarutz mutex_enter(DCD_MUTEX);
38203786Sarutz }
38213786Sarutz un->un_reissued_timeid = 0L;
38223786Sarutz mutex_exit(DCD_MUTEX);
38233786Sarutz DAD_DEBUG(DCD_DEVINFO, dcd_label, DCD_DEBUG, "dcdrestart done\n");
38243786Sarutz }
38253786Sarutz
38263786Sarutz /*
38273786Sarutz * This routine gets called to reset the throttle to its saved
38283786Sarutz * value wheneven we lower the throttle.
38293786Sarutz */
38303786Sarutz void
dcd_reset_throttle(caddr_t arg)38313786Sarutz dcd_reset_throttle(caddr_t arg)
38323786Sarutz {
38333786Sarutz struct dcd_disk *un = (struct dcd_disk *)arg;
38343786Sarutz struct diskhd *dp;
38353786Sarutz
38363786Sarutz mutex_enter(DCD_MUTEX);
38373786Sarutz dp = &un->un_utab;
38383786Sarutz
38393786Sarutz /*
38403786Sarutz * start any commands that didn't start while throttling.
38413786Sarutz */
38423786Sarutz if (dp->b_actf && (un->un_ncmds < un->un_throttle) &&
38433786Sarutz (dp->b_forw == NULL)) {
38443786Sarutz dcdstart(un);
38453786Sarutz }
38463786Sarutz mutex_exit(DCD_MUTEX);
38473786Sarutz }
38483786Sarutz
38493786Sarutz
38503786Sarutz /*
38513786Sarutz * This routine handles the case when a TRAN_BUSY is
38523786Sarutz * returned by HBA.
38533786Sarutz *
38543786Sarutz * If there are some commands already in the transport, the
38553786Sarutz * bp can be put back on queue and it will
38563786Sarutz * be retried when the queue is emptied after command
38573786Sarutz * completes. But if there is no command in the tranport
38583786Sarutz * and it still return busy, we have to retry the command
38593786Sarutz * after some time like 10ms.
38603786Sarutz */
38613786Sarutz /* ARGSUSED0 */
38623786Sarutz static void
dcd_handle_tran_busy(struct buf * bp,struct diskhd * dp,struct dcd_disk * un)38633786Sarutz dcd_handle_tran_busy(struct buf *bp, struct diskhd *dp, struct dcd_disk *un)
38643786Sarutz {
38653786Sarutz ASSERT(mutex_owned(DCD_MUTEX));
38663786Sarutz
38673786Sarutz
38683786Sarutz if (dp->b_forw == NULL || dp->b_forw == bp) {
38693786Sarutz dp->b_forw = bp;
38703786Sarutz } else if (dp->b_forw != bp) {
38713786Sarutz bp->b_actf = dp->b_actf;
38723786Sarutz dp->b_actf = bp;
38733786Sarutz
38743786Sarutz }
38753786Sarutz if (!un->un_reissued_timeid) {
38763786Sarutz un->un_reissued_timeid =
38777224Scth timeout(dcdrestart, (caddr_t)un, DCD_BSY_TIMEOUT/500);
38783786Sarutz }
38793786Sarutz }
38803786Sarutz
38813786Sarutz static int
dcd_write_deviceid(struct dcd_disk * un)38823786Sarutz dcd_write_deviceid(struct dcd_disk *un)
38833786Sarutz {
38843786Sarutz
38853786Sarutz int status;
38863786Sarutz diskaddr_t blk;
38873786Sarutz struct udcd_cmd ucmd;
38883786Sarutz struct dcd_cmd cdb;
38893786Sarutz struct dk_devid *dkdevid;
38903786Sarutz uint_t *ip, chksum;
38913786Sarutz int i;
38923786Sarutz dev_t dev;
38933786Sarutz
38943786Sarutz mutex_exit(DCD_MUTEX);
38953786Sarutz if (cmlb_get_devid_block(un->un_dklbhandle, &blk, 0)) {
38963786Sarutz mutex_enter(DCD_MUTEX);
38973786Sarutz return (EINVAL);
38983786Sarutz }
38993786Sarutz mutex_enter(DCD_MUTEX);
39003786Sarutz
39013786Sarutz /* Allocate the buffer */
39023786Sarutz dkdevid = kmem_zalloc(un->un_secsize, KM_SLEEP);
39033786Sarutz
39043786Sarutz /* Fill in the revision */
39053786Sarutz dkdevid->dkd_rev_hi = DK_DEVID_REV_MSB;
39063786Sarutz dkdevid->dkd_rev_lo = DK_DEVID_REV_LSB;
39073786Sarutz
39083786Sarutz /* Copy in the device id */
39093786Sarutz bcopy(un->un_devid, &dkdevid->dkd_devid,
39103786Sarutz ddi_devid_sizeof(un->un_devid));
39113786Sarutz
39123786Sarutz /* Calculate the chksum */
39133786Sarutz chksum = 0;
39143786Sarutz ip = (uint_t *)dkdevid;
39153786Sarutz for (i = 0; i < ((un->un_secsize - sizeof (int))/sizeof (int)); i++)
39163786Sarutz chksum ^= ip[i];
39173786Sarutz
39183786Sarutz /* Fill in the checksum */
39193786Sarutz DKD_FORMCHKSUM(chksum, dkdevid);
39203786Sarutz
39213786Sarutz (void) bzero((caddr_t)&ucmd, sizeof (ucmd));
39223786Sarutz (void) bzero((caddr_t)&cdb, sizeof (struct dcd_cmd));
39233786Sarutz
39243786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) == DMA_SUPPORTTED) {
39253786Sarutz cdb.cmd = ATA_WRITE_DMA;
39263786Sarutz } else {
39273786Sarutz if (un->un_dp->options & BLOCK_MODE)
39283786Sarutz cdb.cmd = ATA_WRITE_MULTIPLE;
39293786Sarutz else
39303786Sarutz cdb.cmd = ATA_WRITE;
39313786Sarutz }
39323786Sarutz cdb.size = un->un_secsize;
39333786Sarutz cdb.sector_num.lba_num = blk;
39343786Sarutz cdb.address_mode = ADD_LBA_MODE;
39353786Sarutz cdb.direction = DATA_WRITE;
39363786Sarutz
39373786Sarutz ucmd.udcd_flags = UDCD_WRITE;
39383786Sarutz ucmd.udcd_cmd = &cdb;
39393786Sarutz ucmd.udcd_bufaddr = (caddr_t)dkdevid;
39403786Sarutz ucmd.udcd_buflen = un->un_secsize;
39413786Sarutz ucmd.udcd_flags |= UDCD_SILENT;
39423786Sarutz dev = makedevice(ddi_driver_major(DCD_DEVINFO),
39433786Sarutz ddi_get_instance(DCD_DEVINFO) << DCDUNIT_SHIFT);
39443786Sarutz mutex_exit(DCD_MUTEX);
39453786Sarutz status = dcdioctl_cmd(dev, &ucmd, UIO_SYSSPACE, UIO_SYSSPACE);
39463786Sarutz mutex_enter(DCD_MUTEX);
39473786Sarutz
39483786Sarutz kmem_free(dkdevid, un->un_secsize);
39493786Sarutz return (status);
39503786Sarutz }
39513786Sarutz
39523786Sarutz static int
dcd_read_deviceid(struct dcd_disk * un)39533786Sarutz dcd_read_deviceid(struct dcd_disk *un)
39543786Sarutz {
39553786Sarutz int status;
39563786Sarutz diskaddr_t blk;
39573786Sarutz struct udcd_cmd ucmd;
39583786Sarutz struct dcd_cmd cdb;
39593786Sarutz struct dk_devid *dkdevid;
39603786Sarutz uint_t *ip;
39613786Sarutz int chksum;
39623786Sarutz int i, sz;
39633786Sarutz dev_t dev;
39643786Sarutz
39653786Sarutz mutex_exit(DCD_MUTEX);
39663786Sarutz if (cmlb_get_devid_block(un->un_dklbhandle, &blk, 0)) {
39673786Sarutz mutex_enter(DCD_MUTEX);
39683786Sarutz return (EINVAL);
39693786Sarutz }
39703786Sarutz mutex_enter(DCD_MUTEX);
39713786Sarutz
39723786Sarutz dkdevid = kmem_alloc(un->un_secsize, KM_SLEEP);
39733786Sarutz
39743786Sarutz (void) bzero((caddr_t)&ucmd, sizeof (ucmd));
39753786Sarutz (void) bzero((caddr_t)&cdb, sizeof (cdb));
39763786Sarutz
39773786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) == DMA_SUPPORTTED) {
39783786Sarutz cdb.cmd = ATA_READ_DMA;
39793786Sarutz } else {
39803786Sarutz if (un->un_dp->options & BLOCK_MODE)
39813786Sarutz cdb.cmd = ATA_READ_MULTIPLE;
39823786Sarutz else
39833786Sarutz cdb.cmd = ATA_READ;
39843786Sarutz }
39853786Sarutz cdb.size = un->un_secsize;
39863786Sarutz cdb.sector_num.lba_num = blk;
39873786Sarutz cdb.address_mode = ADD_LBA_MODE;
39883786Sarutz cdb.direction = DATA_READ;
39893786Sarutz
39903786Sarutz ucmd.udcd_flags = UDCD_READ;
39913786Sarutz ucmd.udcd_cmd = &cdb;
39923786Sarutz ucmd.udcd_bufaddr = (caddr_t)dkdevid;
39933786Sarutz ucmd.udcd_buflen = un->un_secsize;
39943786Sarutz ucmd.udcd_flags |= UDCD_SILENT;
39953786Sarutz dev = makedevice(ddi_driver_major(DCD_DEVINFO),
39963786Sarutz ddi_get_instance(DCD_DEVINFO) << DCDUNIT_SHIFT);
39973786Sarutz mutex_exit(DCD_MUTEX);
39983786Sarutz status = dcdioctl_cmd(dev, &ucmd, UIO_SYSSPACE, UIO_SYSSPACE);
39993786Sarutz mutex_enter(DCD_MUTEX);
40003786Sarutz
40013786Sarutz if (status != 0) {
40023786Sarutz kmem_free((caddr_t)dkdevid, un->un_secsize);
40033786Sarutz return (status);
40043786Sarutz }
40053786Sarutz
40063786Sarutz /* Validate the revision */
40073786Sarutz
40083786Sarutz if ((dkdevid->dkd_rev_hi != DK_DEVID_REV_MSB) ||
40093786Sarutz (dkdevid->dkd_rev_lo != DK_DEVID_REV_LSB)) {
40103786Sarutz kmem_free((caddr_t)dkdevid, un->un_secsize);
40113786Sarutz return (EINVAL);
40123786Sarutz }
40133786Sarutz
40143786Sarutz /* Calculate the checksum */
40153786Sarutz chksum = 0;
40163786Sarutz ip = (uint_t *)dkdevid;
40173786Sarutz for (i = 0; i < ((un->un_secsize - sizeof (int))/sizeof (int)); i++)
40183786Sarutz chksum ^= ip[i];
40193786Sarutz
40203786Sarutz /* Compare the checksums */
40213786Sarutz
40223786Sarutz if (DKD_GETCHKSUM(dkdevid) != chksum) {
40233786Sarutz kmem_free((caddr_t)dkdevid, un->un_secsize);
40243786Sarutz return (EINVAL);
40253786Sarutz }
40263786Sarutz
40273786Sarutz /* VAlidate the device id */
40283786Sarutz if (ddi_devid_valid((ddi_devid_t)&dkdevid->dkd_devid) != DDI_SUCCESS) {
40293786Sarutz kmem_free((caddr_t)dkdevid, un->un_secsize);
40303786Sarutz return (EINVAL);
40313786Sarutz }
40323786Sarutz
40333786Sarutz /* return a copy of the device id */
40343786Sarutz sz = ddi_devid_sizeof((ddi_devid_t)&dkdevid->dkd_devid);
40353786Sarutz un->un_devid = (ddi_devid_t)kmem_alloc(sz, KM_SLEEP);
40363786Sarutz bcopy(&dkdevid->dkd_devid, un->un_devid, sz);
40373786Sarutz kmem_free((caddr_t)dkdevid, un->un_secsize);
40383786Sarutz
40393786Sarutz return (0);
40403786Sarutz }
40413786Sarutz
40423786Sarutz /*
40433786Sarutz * Return the device id for the device.
40443786Sarutz * 1. If the device ID exists then just return it - nothing to do in that case.
40453786Sarutz * 2. Build one from the drives model number and serial number.
40463786Sarutz * 3. If there is a problem in building it from serial/model #, then try
40473786Sarutz * to read it from the acyl region of the disk.
40483786Sarutz * Note: If this function is unable to return a valid ID then the calling
40493786Sarutz * point will invoke the routine to create a fabricated ID ans stor it on the
40503786Sarutz * acyl region of the disk.
40513786Sarutz */
40523786Sarutz static ddi_devid_t
dcd_get_devid(struct dcd_disk * un)40533786Sarutz dcd_get_devid(struct dcd_disk *un)
40543786Sarutz {
40553786Sarutz int rc;
40563786Sarutz
40573786Sarutz /* If already registered, return that value */
40583786Sarutz if (un->un_devid != NULL)
40593786Sarutz return (un->un_devid);
40603786Sarutz
40613786Sarutz /* Build a devid from model and serial number, if present */
40623786Sarutz rc = dcd_make_devid_from_serial(un);
40633786Sarutz
40643786Sarutz if (rc != DDI_SUCCESS) {
40653786Sarutz /* Read the devid from the disk. */
40663786Sarutz if (dcd_read_deviceid(un))
40673786Sarutz return (NULL);
40683786Sarutz }
40693786Sarutz
40703786Sarutz (void) ddi_devid_register(DCD_DEVINFO, un->un_devid);
40713786Sarutz return (un->un_devid);
40723786Sarutz }
40733786Sarutz
40743786Sarutz
40753786Sarutz static ddi_devid_t
dcd_create_devid(struct dcd_disk * un)40763786Sarutz dcd_create_devid(struct dcd_disk *un)
40773786Sarutz {
40783786Sarutz if (ddi_devid_init(DCD_DEVINFO, DEVID_FAB, 0, NULL, (ddi_devid_t *)
40793786Sarutz &un->un_devid) == DDI_FAILURE)
40803786Sarutz return (NULL);
40813786Sarutz
40823786Sarutz if (dcd_write_deviceid(un)) {
40833786Sarutz ddi_devid_free(un->un_devid);
40843786Sarutz un->un_devid = NULL;
40853786Sarutz return (NULL);
40863786Sarutz }
40873786Sarutz
40883786Sarutz (void) ddi_devid_register(DCD_DEVINFO, un->un_devid);
40893786Sarutz return (un->un_devid);
40903786Sarutz }
40913786Sarutz
40923786Sarutz /*
40933786Sarutz * Build a devid from the model and serial number, if present
40943786Sarutz * Return DDI_SUCCESS or DDI_FAILURE.
40953786Sarutz */
40963786Sarutz static int
dcd_make_devid_from_serial(struct dcd_disk * un)40973786Sarutz dcd_make_devid_from_serial(struct dcd_disk *un)
40983786Sarutz {
40993786Sarutz int rc = DDI_SUCCESS;
41003786Sarutz char *hwid;
41013786Sarutz char *model;
41023786Sarutz int model_len;
41033786Sarutz char *serno;
41043786Sarutz int serno_len;
41053786Sarutz int total_len;
41063786Sarutz
41073786Sarutz /* initialize the model and serial number information */
41083786Sarutz model = un->un_dcd->dcd_ident->dcd_model;
41093786Sarutz model_len = DCD_MODEL_NUMBER_LENGTH;
41103786Sarutz serno = un->un_dcd->dcd_ident->dcd_drvser;
41113786Sarutz serno_len = DCD_SERIAL_NUMBER_LENGTH;
41123786Sarutz
41133786Sarutz /* Verify the model and serial number */
41143786Sarutz dcd_validate_model_serial(model, &model_len, model_len);
41153786Sarutz if (model_len == 0) {
41163786Sarutz rc = DDI_FAILURE;
41173786Sarutz goto out;
41183786Sarutz }
41193786Sarutz dcd_validate_model_serial(serno, &serno_len, serno_len);
41203786Sarutz if (serno_len == 0) {
41213786Sarutz rc = DDI_FAILURE;
41223786Sarutz goto out;
41233786Sarutz }
41243786Sarutz
41253786Sarutz /*
41263786Sarutz * The device ID will be concatenation of the model number,
41273786Sarutz * the '=' separator, the serial number. Allocate
41283786Sarutz * the string and concatenate the components.
41293786Sarutz */
41303786Sarutz total_len = model_len + 1 + serno_len;
41313786Sarutz hwid = kmem_alloc(total_len, KM_SLEEP);
41323786Sarutz bcopy((caddr_t)model, (caddr_t)hwid, model_len);
41333786Sarutz bcopy((caddr_t)"=", (caddr_t)&hwid[model_len], 1);
41343786Sarutz bcopy((caddr_t)serno, (caddr_t)&hwid[model_len + 1], serno_len);
41353786Sarutz
41363786Sarutz /* Initialize the device ID, trailing NULL not included */
41373786Sarutz rc = ddi_devid_init(DCD_DEVINFO, DEVID_ATA_SERIAL, total_len,
41383786Sarutz hwid, (ddi_devid_t *)&un->un_devid);
41393786Sarutz
41403786Sarutz /* Free the allocated string */
41413786Sarutz kmem_free(hwid, total_len);
41423786Sarutz
41433786Sarutz out: return (rc);
41443786Sarutz }
41453786Sarutz
41463786Sarutz /*
41473786Sarutz * Test for a valid model or serial number. Assume that a valid representation
41483786Sarutz * contains at least one character that is neither a space, 0 digit, or NULL.
41493786Sarutz * Trim trailing blanks and NULLS from returned length.
41503786Sarutz */
41513786Sarutz static void
dcd_validate_model_serial(char * str,int * retlen,int totallen)41523786Sarutz dcd_validate_model_serial(char *str, int *retlen, int totallen)
41533786Sarutz {
41543786Sarutz char ch;
41553786Sarutz boolean_t ret = B_FALSE;
41563786Sarutz int i;
41573786Sarutz int tb;
41583786Sarutz
41593786Sarutz for (i = 0, tb = 0; i < totallen; i++) {
41603786Sarutz ch = *str++;
41613786Sarutz if ((ch != ' ') && (ch != '\0') && (ch != '0'))
41623786Sarutz ret = B_TRUE;
41633786Sarutz if ((ch == ' ') || (ch == '\0'))
41643786Sarutz tb++;
41653786Sarutz else
41663786Sarutz tb = 0;
41673786Sarutz }
41683786Sarutz
41693786Sarutz if (ret == B_TRUE) {
41703786Sarutz /* Atleast one non 0 or blank character. */
41713786Sarutz *retlen = totallen - tb;
41723786Sarutz } else {
41733786Sarutz *retlen = 0;
41743786Sarutz }
41753786Sarutz }
41763786Sarutz
41773786Sarutz #ifndef lint
41783786Sarutz void
clean_print(dev_info_t * dev,char * label,uint_t level,char * title,char * data,int len)41793786Sarutz clean_print(dev_info_t *dev, char *label, uint_t level,
41803786Sarutz char *title, char *data, int len)
41813786Sarutz {
41823786Sarutz int i;
41833786Sarutz char buf[256];
41843786Sarutz
41853786Sarutz (void) sprintf(buf, "%s:", title);
41863786Sarutz for (i = 0; i < len; i++) {
41873786Sarutz (void) sprintf(&buf[strlen(buf)], "0x%x ", (data[i] & 0xff));
41883786Sarutz }
41893786Sarutz (void) sprintf(&buf[strlen(buf)], "\n");
41903786Sarutz
41913786Sarutz dcd_log(dev, label, level, "%s", buf);
41923786Sarutz }
41933786Sarutz #endif /* Not lint */
41943786Sarutz
41953786Sarutz #ifndef lint
41963786Sarutz /*
41973786Sarutz * Print a piece of inquiry data- cleaned up for non-printable characters
41983786Sarutz * and stopping at the first space character after the beginning of the
41993786Sarutz * passed string;
42003786Sarutz */
42013786Sarutz
42023786Sarutz void
inq_fill(char * p,int l,char * s)42033786Sarutz inq_fill(char *p, int l, char *s)
42043786Sarutz {
42053786Sarutz unsigned i = 0;
42063786Sarutz char c;
42073786Sarutz
42083786Sarutz while (i++ < l) {
42093786Sarutz if ((c = *p++) < ' ' || c >= 0177) {
42103786Sarutz c = '*';
42113786Sarutz } else if (i != 1 && c == ' ') {
42123786Sarutz break;
42133786Sarutz }
42143786Sarutz *s++ = c;
42153786Sarutz }
42163786Sarutz *s++ = 0;
42173786Sarutz }
42183786Sarutz #endif /* Not lint */
42193786Sarutz
42203786Sarutz char *
dcd_sname(uchar_t status)42213786Sarutz dcd_sname(uchar_t status)
42223786Sarutz {
42233786Sarutz switch (status & STATUS_ATA_MASK) {
42243786Sarutz case STATUS_GOOD:
42253786Sarutz return ("good status");
42263786Sarutz
42273786Sarutz case STATUS_ATA_BUSY:
42283786Sarutz return ("busy");
42293786Sarutz
42303786Sarutz default:
42313786Sarutz return ("<unknown status>");
42323786Sarutz }
42333786Sarutz }
42343786Sarutz
42353786Sarutz /* ARGSUSED0 */
42363786Sarutz char *
dcd_rname(int reason)42373786Sarutz dcd_rname(int reason)
42383786Sarutz {
42393786Sarutz static char *rnames[] = {
42403786Sarutz "cmplt",
42413786Sarutz "incomplete",
42423786Sarutz "dma_derr",
42433786Sarutz "tran_err",
42443786Sarutz "reset",
42453786Sarutz "aborted",
42463786Sarutz "timeout",
42473786Sarutz "data_ovr",
42483786Sarutz };
42493786Sarutz if (reason > CMD_DATA_OVR) {
42503786Sarutz return ("<unknown reason>");
42513786Sarutz } else {
42523786Sarutz return (rnames[reason]);
42533786Sarutz }
42543786Sarutz }
42553786Sarutz
42563786Sarutz
42573786Sarutz
42583786Sarutz /* ARGSUSED0 */
42593786Sarutz int
dcd_check_wp(dev_t dev)42603786Sarutz dcd_check_wp(dev_t dev)
42613786Sarutz {
42623786Sarutz
42633786Sarutz return (0);
42643786Sarutz }
42653786Sarutz
42663786Sarutz /*
42673786Sarutz * Create device error kstats
42683786Sarutz */
42693786Sarutz static int
dcd_create_errstats(struct dcd_disk * un,int instance)42703786Sarutz dcd_create_errstats(struct dcd_disk *un, int instance)
42713786Sarutz {
42723786Sarutz
42733786Sarutz char kstatname[KSTAT_STRLEN];
42743786Sarutz
42753786Sarutz if (un->un_errstats == (kstat_t *)0) {
42763786Sarutz (void) sprintf(kstatname, "dad%d,error", instance);
42773786Sarutz un->un_errstats = kstat_create("daderror", instance, kstatname,
42783786Sarutz "device_error", KSTAT_TYPE_NAMED,
42793786Sarutz sizeof (struct dcd_errstats)/ sizeof (kstat_named_t),
42803786Sarutz KSTAT_FLAG_PERSISTENT);
42813786Sarutz
42823786Sarutz if (un->un_errstats) {
42833786Sarutz struct dcd_errstats *dtp;
42843786Sarutz
42853786Sarutz dtp = (struct dcd_errstats *)un->un_errstats->ks_data;
42863786Sarutz kstat_named_init(&dtp->dcd_softerrs, "Soft Errors",
42873786Sarutz KSTAT_DATA_UINT32);
42883786Sarutz kstat_named_init(&dtp->dcd_harderrs, "Hard Errors",
42893786Sarutz KSTAT_DATA_UINT32);
42903786Sarutz kstat_named_init(&dtp->dcd_transerrs,
42913786Sarutz "Transport Errors", KSTAT_DATA_UINT32);
42923786Sarutz kstat_named_init(&dtp->dcd_model, "Model",
42933786Sarutz KSTAT_DATA_CHAR);
42943786Sarutz kstat_named_init(&dtp->dcd_revision, "Revision",
42953786Sarutz KSTAT_DATA_CHAR);
42963786Sarutz kstat_named_init(&dtp->dcd_serial, "Serial No",
42973786Sarutz KSTAT_DATA_CHAR);
42983786Sarutz kstat_named_init(&dtp->dcd_capacity, "Size",
42993786Sarutz KSTAT_DATA_ULONGLONG);
43003786Sarutz kstat_named_init(&dtp->dcd_rq_media_err, "Media Error",
43013786Sarutz KSTAT_DATA_UINT32);
43023786Sarutz kstat_named_init(&dtp->dcd_rq_ntrdy_err,
43033786Sarutz "Device Not Ready", KSTAT_DATA_UINT32);
43043786Sarutz kstat_named_init(&dtp->dcd_rq_nodev_err, " No Device",
43053786Sarutz KSTAT_DATA_UINT32);
43063786Sarutz kstat_named_init(&dtp->dcd_rq_recov_err, "Recoverable",
43073786Sarutz KSTAT_DATA_UINT32);
43083786Sarutz kstat_named_init(&dtp->dcd_rq_illrq_err,
43093786Sarutz "Illegal Request", KSTAT_DATA_UINT32);
43103786Sarutz
43113786Sarutz un->un_errstats->ks_private = un;
43123786Sarutz un->un_errstats->ks_update = nulldev;
43133786Sarutz kstat_install(un->un_errstats);
43143786Sarutz
43153786Sarutz (void) strncpy(&dtp->dcd_model.value.c[0],
43163786Sarutz un->un_dcd->dcd_ident->dcd_model, 16);
43173786Sarutz (void) strncpy(&dtp->dcd_serial.value.c[0],
43183786Sarutz un->un_dcd->dcd_ident->dcd_drvser, 16);
43193786Sarutz (void) strncpy(&dtp->dcd_revision.value.c[0],
43203786Sarutz un->un_dcd->dcd_ident->dcd_fw, 8);
43213786Sarutz dtp->dcd_capacity.value.ui64 =
43223786Sarutz (uint64_t)((uint64_t)un->un_diskcapacity *
43233786Sarutz (uint64_t)un->un_lbasize);
43243786Sarutz }
43253786Sarutz }
43263786Sarutz return (0);
43273786Sarutz }
43283786Sarutz
43293786Sarutz
43303786Sarutz /*
43313786Sarutz * This has been moved from DADA layer as this does not do anything other than
43323786Sarutz * retrying the command when it is busy or it does not complete
43333786Sarutz */
43343786Sarutz int
dcd_poll(struct dcd_pkt * pkt)43353786Sarutz dcd_poll(struct dcd_pkt *pkt)
43363786Sarutz {
43373786Sarutz int busy_count, rval = -1, savef;
43383786Sarutz clock_t savet;
43393786Sarutz void (*savec)();
43403786Sarutz
43413786Sarutz
43423786Sarutz /*
43433786Sarutz * Save old flags
43443786Sarutz */
43453786Sarutz savef = pkt->pkt_flags;
43463786Sarutz savec = pkt->pkt_comp;
43473786Sarutz savet = pkt->pkt_time;
43483786Sarutz
43493786Sarutz pkt->pkt_flags |= FLAG_NOINTR;
43503786Sarutz
43513786Sarutz
43523786Sarutz /*
43533786Sarutz * Set the Pkt_comp to NULL
43543786Sarutz */
43553786Sarutz
43563786Sarutz pkt->pkt_comp = 0;
43573786Sarutz
43583786Sarutz /*
43593786Sarutz * Set the Pkt time for the polled command
43603786Sarutz */
43613786Sarutz if (pkt->pkt_time == 0) {
43623786Sarutz pkt->pkt_time = DCD_POLL_TIMEOUT;
43633786Sarutz }
43643786Sarutz
43653786Sarutz
43663786Sarutz /* Now transport the command */
43673786Sarutz for (busy_count = 0; busy_count < dcd_poll_busycnt; busy_count++) {
43683786Sarutz if ((rval = dcd_transport(pkt)) == TRAN_ACCEPT) {
43693786Sarutz if (pkt->pkt_reason == CMD_INCOMPLETE &&
43703786Sarutz pkt->pkt_state == 0) {
43713786Sarutz delay(100);
43723786Sarutz } else if (pkt->pkt_reason == CMD_CMPLT) {
43733786Sarutz rval = 0;
43743786Sarutz break;
43753786Sarutz }
43763786Sarutz }
43773786Sarutz if (rval == TRAN_BUSY) {
43783786Sarutz delay(100);
43793786Sarutz continue;
43803786Sarutz }
43813786Sarutz }
43823786Sarutz
43833786Sarutz pkt->pkt_flags = savef;
43843786Sarutz pkt->pkt_comp = savec;
43853786Sarutz pkt->pkt_time = savet;
43863786Sarutz return (rval);
43873786Sarutz }
43883786Sarutz
43893786Sarutz
43903786Sarutz void
dcd_translate(struct dadkio_status32 * statp,struct udcd_cmd * cmdp)43913786Sarutz dcd_translate(struct dadkio_status32 *statp, struct udcd_cmd *cmdp)
43923786Sarutz {
43933786Sarutz if (cmdp->udcd_status_reg & STATUS_ATA_BUSY)
43943786Sarutz statp->status = DADKIO_STAT_NOT_READY;
43953786Sarutz else if (cmdp->udcd_status_reg & STATUS_ATA_DWF)
43963786Sarutz statp->status = DADKIO_STAT_HARDWARE_ERROR;
43973786Sarutz else if (cmdp->udcd_status_reg & STATUS_ATA_CORR)
43983786Sarutz statp->status = DADKIO_STAT_SOFT_ERROR;
43993786Sarutz else if (cmdp->udcd_status_reg & STATUS_ATA_ERR) {
44003786Sarutz /*
44013786Sarutz * The error register is valid only when BSY and DRQ not set
44023786Sarutz * Assumed that HBA has checked this before it gives the data
44033786Sarutz */
44043786Sarutz if (cmdp->udcd_error_reg & ERR_AMNF)
44053786Sarutz statp->status = DADKIO_STAT_NOT_FORMATTED;
44063786Sarutz else if (cmdp->udcd_error_reg & ERR_TKONF)
44073786Sarutz statp->status = DADKIO_STAT_NOT_FORMATTED;
44083786Sarutz else if (cmdp->udcd_error_reg & ERR_ABORT)
44093786Sarutz statp->status = DADKIO_STAT_ILLEGAL_REQUEST;
44103786Sarutz else if (cmdp->udcd_error_reg & ERR_IDNF)
44113786Sarutz statp->status = DADKIO_STAT_NOT_FORMATTED;
44123786Sarutz else if (cmdp->udcd_error_reg & ERR_UNC)
44133786Sarutz statp->status = DADKIO_STAT_BUS_ERROR;
44143786Sarutz else if (cmdp->udcd_error_reg & ERR_BBK)
44153786Sarutz statp->status = DADKIO_STAT_MEDIUM_ERROR;
44163786Sarutz } else
44173786Sarutz statp->status = DADKIO_STAT_NO_ERROR;
44183786Sarutz }
44193786Sarutz
44203786Sarutz static void
dcd_flush_cache(struct dcd_disk * un)44213786Sarutz dcd_flush_cache(struct dcd_disk *un)
44223786Sarutz {
44233786Sarutz struct dcd_pkt *pkt;
44243786Sarutz int retry_count;
44253786Sarutz
44263786Sarutz
44273786Sarutz if ((pkt = dcd_init_pkt(ROUTE, NULL, NULL,
44283786Sarutz (uint32_t)sizeof (struct dcd_cmd), 2, PP_LEN,
44293786Sarutz PKT_CONSISTENT, NULL_FUNC, NULL)) == NULL) {
44303786Sarutz return;
44313786Sarutz }
44323786Sarutz
44333786Sarutz makecommand(pkt, 0, ATA_FLUSH_CACHE, 0, ADD_LBA_MODE, 0,
44343786Sarutz NO_DATA_XFER, 0);
44353786Sarutz
44363786Sarutz /*
44373786Sarutz * Send the command. There are chances it might fail on some
44383786Sarutz * disks since it is not a mandatory command as per ata-4. Try
44393786Sarutz * 3 times if it fails. The retry count has been randomly selected.
44403786Sarutz * There is a need for retry since as per the spec FLUSH CACHE can fail
44413786Sarutz * as a result of unrecoverable error encountered during execution
44423786Sarutz * of writing data and subsequent command should continue flushing
44433786Sarutz * cache.
44443786Sarutz */
44453786Sarutz for (retry_count = 0; retry_count < 3; retry_count++) {
44463786Sarutz /*
44473786Sarutz * Set the packet fields.
44483786Sarutz */
44493786Sarutz pkt->pkt_comp = 0;
44503786Sarutz pkt->pkt_time = DCD_POLL_TIMEOUT;
44513786Sarutz pkt->pkt_flags |= FLAG_FORCENOINTR;
44523786Sarutz pkt->pkt_flags |= FLAG_NOINTR;
44533786Sarutz if (dcd_transport(pkt) == TRAN_ACCEPT) {
44543786Sarutz if (pkt->pkt_reason == CMD_CMPLT) {
44553786Sarutz break;
44563786Sarutz }
44573786Sarutz }
44583786Sarutz /*
44593786Sarutz * Note the wait time value of 100ms is same as in the
44603786Sarutz * dcd_poll routine.
44613786Sarutz */
44623786Sarutz drv_usecwait(1000000);
44633786Sarutz }
44643786Sarutz (void) dcd_destroy_pkt(pkt);
44653786Sarutz }
44663786Sarutz
44673786Sarutz static int
dcd_send_lb_rw_cmd(dev_info_t * devi,void * bufaddr,diskaddr_t start_block,size_t reqlength,uchar_t cmd)44683786Sarutz dcd_send_lb_rw_cmd(dev_info_t *devi, void *bufaddr,
44693786Sarutz diskaddr_t start_block, size_t reqlength, uchar_t cmd)
44703786Sarutz {
44713786Sarutz struct dcd_pkt *pkt;
44723786Sarutz struct buf *bp;
44733786Sarutz diskaddr_t real_addr = start_block;
44743786Sarutz size_t buffer_size = reqlength;
44753786Sarutz uchar_t command, tmp;
44763786Sarutz int i, rval = 0;
44773786Sarutz struct dcd_disk *un;
44783786Sarutz
44793786Sarutz un = ddi_get_soft_state(dcd_state, ddi_get_instance(devi));
44803786Sarutz if (un == NULL)
44813786Sarutz return (ENXIO);
44823786Sarutz
44833786Sarutz bp = dcd_alloc_consistent_buf(ROUTE, (struct buf *)NULL,
44843786Sarutz buffer_size, B_READ, NULL_FUNC, NULL);
44853786Sarutz if (!bp) {
44863786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
44873786Sarutz "no bp for disk label\n");
44883786Sarutz return (ENOMEM);
44893786Sarutz }
44903786Sarutz
44913786Sarutz pkt = dcd_init_pkt(ROUTE, (struct dcd_pkt *)NULL,
44923786Sarutz bp, (uint32_t)sizeof (struct dcd_cmd), 2, PP_LEN,
44933786Sarutz PKT_CONSISTENT, NULL_FUNC, NULL);
44943786Sarutz
44953786Sarutz if (!pkt) {
44963786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
44973786Sarutz "no memory for disk label\n");
44983786Sarutz dcd_free_consistent_buf(bp);
44993786Sarutz return (ENOMEM);
45003786Sarutz }
45013786Sarutz
45023786Sarutz if (cmd == TG_READ) {
45033786Sarutz bzero(bp->b_un.b_addr, buffer_size);
45043786Sarutz tmp = DATA_READ;
45053786Sarutz } else {
45063786Sarutz bcopy((caddr_t)bufaddr, bp->b_un.b_addr, buffer_size);
45073786Sarutz tmp = DATA_WRITE;
45083786Sarutz }
45093786Sarutz
45103786Sarutz mutex_enter(DCD_MUTEX);
45113786Sarutz if ((un->un_dp->options & DMA_SUPPORTTED) == DMA_SUPPORTTED) {
45123786Sarutz if (cmd == TG_READ) {
45133786Sarutz command = ATA_READ_DMA;
45143786Sarutz } else {
45153786Sarutz command = ATA_WRITE_DMA;
45163786Sarutz }
45173786Sarutz } else {
45183786Sarutz if (cmd == TG_READ) {
45193786Sarutz if (un->un_dp->options & BLOCK_MODE)
45203786Sarutz command = ATA_READ_MULTIPLE;
45213786Sarutz else
45223786Sarutz command = ATA_READ;
45233786Sarutz } else {
45243786Sarutz if (un->un_dp->options & BLOCK_MODE)
45253786Sarutz command = ATA_READ_MULTIPLE;
45263786Sarutz else
45273786Sarutz command = ATA_WRITE;
45283786Sarutz }
45293786Sarutz }
45303786Sarutz mutex_exit(DCD_MUTEX);
45313786Sarutz (void) makecommand(pkt, 0, command, real_addr, ADD_LBA_MODE,
45323786Sarutz buffer_size, tmp, 0);
45333786Sarutz
45343786Sarutz for (i = 0; i < 3; i++) {
45353786Sarutz if (dcd_poll(pkt) || SCBP_C(pkt) != STATUS_GOOD ||
45363786Sarutz (pkt->pkt_state & STATE_XFERRED_DATA) == 0 ||
45373786Sarutz (pkt->pkt_resid != 0)) {
45383786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
45393786Sarutz "Status %x, state %x, resid %lx\n",
45403786Sarutz SCBP_C(pkt), pkt->pkt_state, pkt->pkt_resid);
45413786Sarutz rval = EIO;
45423786Sarutz } else {
45433786Sarutz break;
45443786Sarutz }
45453786Sarutz }
45463786Sarutz
45473786Sarutz if (rval != 0) {
45483786Sarutz dcd_destroy_pkt(pkt);
45493786Sarutz dcd_free_consistent_buf(bp);
45503786Sarutz return (EIO);
45513786Sarutz }
45523786Sarutz
45533786Sarutz if (cmd == TG_READ) {
45543786Sarutz bcopy(bp->b_un.b_addr, bufaddr, reqlength);
45553786Sarutz rval = 0;
45563786Sarutz }
45573786Sarutz
45583786Sarutz dcd_destroy_pkt(pkt);
45593786Sarutz dcd_free_consistent_buf(bp);
45603786Sarutz return (rval);
45613786Sarutz }
45623786Sarutz
dcd_compute_dk_capacity(struct dcd_device * devp,diskaddr_t * capacity)45633786Sarutz static int dcd_compute_dk_capacity(struct dcd_device *devp,
45643786Sarutz diskaddr_t *capacity)
45653786Sarutz {
45663786Sarutz diskaddr_t cap;
45673786Sarutz diskaddr_t no_of_lbasec;
45683786Sarutz
45693786Sarutz cap = devp->dcd_ident->dcd_fixcyls *
45703786Sarutz devp->dcd_ident->dcd_heads *
45713786Sarutz devp->dcd_ident->dcd_sectors;
45723786Sarutz no_of_lbasec = devp->dcd_ident->dcd_addrsec[1];
45733786Sarutz no_of_lbasec = no_of_lbasec << 16;
45743786Sarutz no_of_lbasec = no_of_lbasec | devp->dcd_ident->dcd_addrsec[0];
45753786Sarutz
45763786Sarutz if (no_of_lbasec > cap) {
45773786Sarutz cap = no_of_lbasec;
45783786Sarutz }
45793786Sarutz
45803786Sarutz if (cap != ((uint32_t)-1))
45813786Sarutz *capacity = cap;
45823786Sarutz else
45833786Sarutz return (EINVAL);
45843786Sarutz return (0);
45853786Sarutz }
45863786Sarutz
45873786Sarutz /*ARGSUSED5*/
45883786Sarutz static int
dcd_lb_rdwr(dev_info_t * devi,uchar_t cmd,void * bufaddr,diskaddr_t start_block,size_t reqlength,void * tg_cookie)45893786Sarutz dcd_lb_rdwr(dev_info_t *devi, uchar_t cmd, void *bufaddr,
45903786Sarutz diskaddr_t start_block, size_t reqlength, void *tg_cookie)
45913786Sarutz {
45923786Sarutz if (cmd != TG_READ && cmd != TG_WRITE)
45933786Sarutz return (EINVAL);
45943786Sarutz
45953786Sarutz return (dcd_send_lb_rw_cmd(devi, bufaddr, start_block,
45963786Sarutz reqlength, cmd));
45973786Sarutz }
45983786Sarutz
45993786Sarutz static int
dcd_lb_getphygeom(dev_info_t * devi,cmlb_geom_t * phygeomp)46003786Sarutz dcd_lb_getphygeom(dev_info_t *devi, cmlb_geom_t *phygeomp)
46013786Sarutz {
46023786Sarutz struct dcd_device *devp;
46033786Sarutz uint32_t no_of_lbasec, capacity, calculated_cylinders;
46043786Sarutz
46053786Sarutz devp = ddi_get_driver_private(devi);
46063786Sarutz
46073786Sarutz if ((devp->dcd_ident->dcd_config & ATAPI_DEVICE) == 0) {
46083786Sarutz if (devp->dcd_ident->dcd_config & ATANON_REMOVABLE) {
46093786Sarutz phygeomp->g_ncyl = devp->dcd_ident->dcd_fixcyls - 2;
46103786Sarutz phygeomp->g_acyl = 2;
46113786Sarutz phygeomp->g_nhead = devp->dcd_ident->dcd_heads;
46123786Sarutz phygeomp->g_nsect = devp->dcd_ident->dcd_sectors;
46133786Sarutz
46143786Sarutz no_of_lbasec = devp->dcd_ident->dcd_addrsec[1];
46153786Sarutz no_of_lbasec = no_of_lbasec << 16;
46163786Sarutz no_of_lbasec = no_of_lbasec |
46173786Sarutz devp->dcd_ident->dcd_addrsec[0];
46183786Sarutz capacity = devp->dcd_ident->dcd_fixcyls *
46193786Sarutz devp->dcd_ident->dcd_heads *
46203786Sarutz devp->dcd_ident->dcd_sectors;
46213786Sarutz if (no_of_lbasec > capacity) {
46223786Sarutz capacity = no_of_lbasec;
46233786Sarutz if (capacity > NUM_SECTORS_32G) {
46243786Sarutz /*
46253786Sarutz * if the capacity is greater than 32G,
46263786Sarutz * then 255 is the sectors per track.
46273786Sarutz * This should be good until 128G disk
46283786Sarutz * capacity, which is the current ATA-4
46293786Sarutz * limitation.
46303786Sarutz */
46313786Sarutz phygeomp->g_nsect = 255;
46323786Sarutz }
46333786Sarutz
46343786Sarutz /*
46353786Sarutz * If the disk capacity is >= 128GB then no. of
46363786Sarutz * addressable sectors will be set to 0xfffffff
46373786Sarutz * in the IDENTIFY info. In that case set the
46383786Sarutz * no. of pcyl to the Max. 16bit value.
46393786Sarutz */
46403786Sarutz
46413786Sarutz calculated_cylinders = (capacity) /
46423786Sarutz (phygeomp->g_nhead * phygeomp->g_nsect);
46433786Sarutz if (calculated_cylinders >= USHRT_MAX) {
46443786Sarutz phygeomp->g_ncyl = USHRT_MAX - 2;
46453786Sarutz } else {
46463786Sarutz phygeomp->g_ncyl =
46473786Sarutz calculated_cylinders - 2;
46483786Sarutz }
46493786Sarutz }
46503786Sarutz
46513786Sarutz phygeomp->g_capacity = capacity;
46523786Sarutz phygeomp->g_intrlv = 0;
46533786Sarutz phygeomp->g_rpm = 5400;
46543786Sarutz phygeomp->g_secsize = devp->dcd_ident->dcd_secsiz;
46553786Sarutz
46563786Sarutz return (0);
46573786Sarutz } else
46583786Sarutz return (ENOTSUP);
46593786Sarutz } else {
46603786Sarutz return (EINVAL);
46613786Sarutz }
46623786Sarutz }
46633786Sarutz
46643786Sarutz
46653786Sarutz /*ARGSUSED3*/
46663786Sarutz static int
dcd_lb_getinfo(dev_info_t * devi,int cmd,void * arg,void * tg_cookie)46673786Sarutz dcd_lb_getinfo(dev_info_t *devi, int cmd, void *arg, void *tg_cookie)
46683786Sarutz {
46693786Sarutz struct dcd_disk *un;
46703786Sarutz
46713786Sarutz un = ddi_get_soft_state(dcd_state, ddi_get_instance(devi));
46723786Sarutz
46733786Sarutz if (un == NULL)
46743786Sarutz return (ENXIO);
46753786Sarutz
46763786Sarutz switch (cmd) {
46773786Sarutz case TG_GETPHYGEOM:
46783786Sarutz return (dcd_lb_getphygeom(devi, (cmlb_geom_t *)arg));
46793786Sarutz
46803786Sarutz case TG_GETVIRTGEOM:
46813786Sarutz return (-1);
46823786Sarutz
46833786Sarutz case TG_GETCAPACITY:
46843786Sarutz case TG_GETBLOCKSIZE:
46853786Sarutz mutex_enter(DCD_MUTEX);
46863786Sarutz if (un->un_diskcapacity <= 0) {
46873786Sarutz mutex_exit(DCD_MUTEX);
46883786Sarutz dcd_log(DCD_DEVINFO, dcd_label, CE_WARN,
46897224Scth "invalid disk capacity\n");
46903786Sarutz return (EIO);
46913786Sarutz }
46923786Sarutz if (cmd == TG_GETCAPACITY)
46933786Sarutz *(diskaddr_t *)arg = un->un_diskcapacity;
46943786Sarutz else
46953786Sarutz *(uint32_t *)arg = DEV_BSIZE;
46963786Sarutz
46973786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG, "capacity %x\n",
46983786Sarutz un->un_diskcapacity);
46993786Sarutz mutex_exit(DCD_MUTEX);
47003786Sarutz return (0);
47013786Sarutz
47023786Sarutz case TG_GETATTR:
47033786Sarutz mutex_enter(DCD_MUTEX);
47043786Sarutz *(tg_attribute_t *)arg = un->un_tgattribute;
47053786Sarutz DAD_DEBUG2(DCD_DEVINFO, dcd_label, DCD_DEBUG,
47063786Sarutz "media_is_writable %x\n",
47073786Sarutz un->un_tgattribute.media_is_writable);
47083786Sarutz mutex_exit(DCD_MUTEX);
47093786Sarutz return (0);
47103786Sarutz default:
47113786Sarutz return (ENOTTY);
47123786Sarutz }
47133786Sarutz }
4714