/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Utility SCSI configuration routines */ /* * Many routines in this file have built in parallel bus assumption * which might need to change as other interconnect evolve. */ #include #include /* * macro for filling in lun value for scsi-1 support */ #define FILL_SCSI1_LUN(devp, pkt) \ if ((devp->sd_address.a_lun > 0) && \ (devp->sd_inq->inq_ansi == 0x1)) { \ ((union scsi_cdb *)(pkt)->pkt_cdbp)->scc_lun = \ devp->sd_address.a_lun; \ } extern struct mod_ops mod_miscops; static struct modlmisc modlmisc = { &mod_miscops, /* Type of module */ "SCSI Bus Utility Routines" }; static struct modlinkage modlinkage = { MODREV_1, (void *)&modlmisc, NULL }; static void create_inquiry_props(struct scsi_device *); static int get_inquiry_prop_len(char *, size_t); static int scsi_check_ss2_LUN_limit(struct scsi_device *); static void scsi_establish_LUN_limit(struct scsi_device *); static void scsi_update_parent_ss2_prop(dev_info_t *, int, int); /* * this int-array HBA-node property keeps track of strictly SCSI-2 * target IDs */ #define SS2_LUN0_TGT_LIST_PROP "ss2-targets" /* * for keeping track of nodes for which we do *NOT* want to probe above LUN 7 * (i.e. strict SCSI-2 targets) * * note that we could also keep track of dtype (SCSI device type) and * ANSI (SCSI standard conformance level), but all currently-known cases of * this problem are on SCSI-2 PROCESSOR device types */ typedef struct ss2_lun0_info { const char *sli_vid; /* SCSI inquiry VID */ const char *sli_pid; /* SCSI inquiry PID */ const char *sli_rev; /* SCSI inquiry REV */ } ss2_lun0_info_t; /* * these two workarounds are for the SCSI-2 GEM2* chips used in the * D1000 and D240 */ #define SES_D1000_VID "SYMBIOS" #define SES_D1000_PID "D1000" /* the D1000 */ #define SES_D1000_REV "2" #define SES_D240_VID "SUN" #define SES_D240_PID "D240" /* the D240 */ #define SES_D240_REV "2" /* * a static list of targets where we do *not* want to probe above LUN 7 */ static const ss2_lun0_info_t scsi_probe_strict_s2_list[] = { {SES_D1000_VID, SES_D1000_PID, SES_D1000_REV}, {SES_D240_VID, SES_D240_PID, SES_D240_REV}, }; static const int scsi_probe_strict_s2_size = sizeof (scsi_probe_strict_s2_list) / sizeof (struct ss2_lun0_info); #ifdef DEBUG int scsi_probe_debug = 0; #define SCSI_PROBE_DEBUG0(l, s) \ if (scsi_probe_debug >= (l)) printf(s) #define SCSI_PROBE_DEBUG1(l, s, a1) \ if (scsi_probe_debug >= (l)) printf(s, a1) #define SCSI_PROBE_DEBUG2(l, s, a1, a2) \ if (scsi_probe_debug >= (l)) printf(s, a1, a2) #define SCSI_PROBE_DEBUG3(l, s, a1, a2, a3) \ if (scsi_probe_debug >= (l)) printf(s, a1, a2, a3) #else /* DEBUG */ #define SCSI_PROBE_DEBUG0(l, s) #define SCSI_PROBE_DEBUG1(l, s, a1) #define SCSI_PROBE_DEBUG2(l, s, a1, a2) #define SCSI_PROBE_DEBUG3(l, s, a1, a2, a3) #endif /* DEBUG */ int scsi_test_busy_timeout = SCSI_POLL_TIMEOUT; /* in seconds */ int scsi_test_busy_delay = 10000; /* 10msec in usec */ /* * architecture dependent allocation restrictions. For x86, we'll set * dma_attr_addr_hi to scsi_max_phys_addr and dma_attr_sgllen to * scsi_sgl_size during _init(). */ #if defined(__sparc) ddi_dma_attr_t scsi_alloc_attr = { DMA_ATTR_V0, /* version number */ 0x0, /* lowest usable address */ 0xFFFFFFFFull, /* high DMA address range */ 0xFFFFFFFFull, /* DMA counter register */ 1, /* DMA address alignment */ 1, /* DMA burstsizes */ 1, /* min effective DMA size */ 0xFFFFFFFFull, /* max DMA xfer size */ 0xFFFFFFFFull, /* segment boundary */ 1, /* s/g list length */ 512, /* granularity of device */ 0 /* DMA transfer flags */ }; #elif defined(__x86) ddi_dma_attr_t scsi_alloc_attr = { DMA_ATTR_V0, /* version number */ 0x0, /* lowest usable address */ 0x0, /* high DMA address range [set in _init()] */ 0xFFFFull, /* DMA counter register */ 1, /* DMA address alignment */ 1, /* DMA burstsizes */ 1, /* min effective DMA size */ 0xFFFFFFFFull, /* max DMA xfer size */ 0xFFFFFFFFull, /* segment boundary */ 0, /* s/g list length */ 512, /* granularity of device [set in _init()] */ 0 /* DMA transfer flags */ }; uint64_t scsi_max_phys_addr = 0xFFFFFFFFull; int scsi_sgl_size = 0xFF; #endif int _init() { scsi_initialize_hba_interface(); scsi_watch_init(); #if defined(__x86) /* set the max physical address for iob allocs on x86 */ scsi_alloc_attr.dma_attr_addr_hi = scsi_max_phys_addr; /* * set the sgllen for iob allocs on x86. If this is set less than * the number of pages the buffer will take (taking into account * alignment), it would force the allocator to try and allocate * contiguous pages. */ scsi_alloc_attr.dma_attr_sgllen = scsi_sgl_size; #endif return (mod_install(&modlinkage)); } /* * there is no _fini() routine because this module is never unloaded */ int _info(struct modinfo *modinfop) { return (mod_info(&modlinkage, modinfop)); } #define ROUTE (&devp->sd_address) static int scsi_slave_do_rqsense(struct scsi_device *devp, int (*callback)()) { struct scsi_pkt *rq_pkt = NULL; struct buf *rq_bp = NULL; int rval = SCSIPROBE_EXISTS; /* * prepare rqsense packet */ rq_bp = scsi_alloc_consistent_buf(ROUTE, (struct buf *)NULL, (uint_t)SENSE_LENGTH, B_READ, callback, NULL); if (rq_bp == NULL) { rval = SCSIPROBE_NOMEM; goto out; } rq_pkt = scsi_init_pkt(ROUTE, (struct scsi_pkt *)NULL, rq_bp, CDB_GROUP0, 1, 0, PKT_CONSISTENT, callback, NULL); if (rq_pkt == NULL) { if (rq_bp->b_error == 0) rval = SCSIPROBE_NOMEM_CB; else rval = SCSIPROBE_NOMEM; goto out; } ASSERT(rq_bp->b_error == 0); (void) scsi_setup_cdb((union scsi_cdb *)rq_pkt-> pkt_cdbp, SCMD_REQUEST_SENSE, 0, SENSE_LENGTH, 0); FILL_SCSI1_LUN(devp, rq_pkt); rq_pkt->pkt_flags = FLAG_NOINTR|FLAG_NOPARITY|FLAG_SENSING; /* * The controller type is as yet unknown, so we * have to do a throwaway non-extended request sense, * and hope that that clears the check condition * for that unit until we can find out what kind * of drive it is. A non-extended request sense * is specified by stating that the sense block * has 0 length, which is taken to mean that it * is four bytes in length. */ if (scsi_poll(rq_pkt) < 0) { rval = SCSIPROBE_FAILURE; } out: if (rq_pkt) { scsi_destroy_pkt(rq_pkt); } if (rq_bp) { scsi_free_consistent_buf(rq_bp); } return (rval); } /* * * SCSI slave probe routine - provided as a service to target drivers * * Mostly attempts to allocate and fill devp inquiry data.. */ int scsi_slave(struct scsi_device *devp, int (*callback)()) { struct scsi_pkt *pkt; int rval = SCSIPROBE_EXISTS; /* * the first test unit ready will tell us whether a target * responded and if there was one, it will clear the unit attention * condition */ pkt = scsi_init_pkt(ROUTE, (struct scsi_pkt *)NULL, NULL, CDB_GROUP0, sizeof (struct scsi_arq_status), 0, 0, callback, NULL); if (pkt == NULL) { return (SCSIPROBE_NOMEM_CB); } (void) scsi_setup_cdb((union scsi_cdb *)pkt->pkt_cdbp, SCMD_TEST_UNIT_READY, 0, 0, 0); FILL_SCSI1_LUN(devp, pkt); pkt->pkt_flags = FLAG_NOINTR|FLAG_NOPARITY; if (scsi_poll(pkt) < 0) { if (pkt->pkt_reason == CMD_INCOMPLETE) rval = SCSIPROBE_NORESP; else rval = SCSIPROBE_FAILURE; if ((pkt->pkt_state & STATE_ARQ_DONE) == 0) { if (((struct scsi_status *)pkt->pkt_scbp)->sts_chk) /* * scanner and processor devices can return a * check condition here */ rval = scsi_slave_do_rqsense(devp, callback); } if (rval != SCSIPROBE_EXISTS) { scsi_destroy_pkt(pkt); return (rval); } } /* * the second test unit ready, allows the host adapter to negotiate * synchronous transfer period and offset */ if (scsi_poll(pkt) < 0) { if (pkt->pkt_reason == CMD_INCOMPLETE) rval = SCSIPROBE_NORESP; else rval = SCSIPROBE_FAILURE; } /* * do a rqsense if there was a check condition and ARQ was not done */ if ((pkt->pkt_state & STATE_ARQ_DONE) == 0) { if (((struct scsi_status *)pkt->pkt_scbp)->sts_chk) { rval = scsi_slave_do_rqsense(devp, callback); } } /* * call scsi_probe to do the inquiry * XXX there is minor difference with the old scsi_slave implementation: * busy conditions are not handled in scsi_probe. */ scsi_destroy_pkt(pkt); if (rval == SCSIPROBE_EXISTS) { return (scsi_probe(devp, callback)); } else { return (rval); } } /* * Undo scsi_slave - older interface, but still supported */ void scsi_unslave(struct scsi_device *devp) { if (devp->sd_inq) { kmem_free((caddr_t)devp->sd_inq, SUN_INQSIZE); devp->sd_inq = (struct scsi_inquiry *)NULL; } } /* * Undo scsi_probe */ void scsi_unprobe(struct scsi_device *devp) { if (devp->sd_inq) { kmem_free((caddr_t)devp->sd_inq, SUN_INQSIZE); devp->sd_inq = (struct scsi_inquiry *)NULL; } } /* * This is like scsi_poll, but only does retry for TRAN_BUSY. */ static int scsi_test(struct scsi_pkt *pkt) { int rval = -1; int wait_usec; int rc; extern int do_polled_io; pkt->pkt_flags |= FLAG_NOINTR; pkt->pkt_time = SCSI_POLL_TIMEOUT; /* in seconds */ if (scsi_ifgetcap(&pkt->pkt_address, "tagged-qing", 1) == 1) { pkt->pkt_flags |= FLAG_STAG; } /* * Each TRAN_BUSY response waits scsi_test_busy_delay usec up to a * maximum of scsi_test_busy_timeout. */ for (wait_usec = 0; (wait_usec / 1000000) <= scsi_test_busy_timeout; wait_usec += scsi_test_busy_delay) { /* Initialize pkt status variables */ *pkt->pkt_scbp = pkt->pkt_reason = pkt->pkt_state = 0; rc = scsi_transport(pkt); if ((rc != TRAN_BUSY) || (scsi_test_busy_delay == 0) || (scsi_test_busy_timeout == 0)) break; /* transport busy, wait */ if ((curthread->t_flag & T_INTR_THREAD) == 0 && !do_polled_io) { delay(drv_usectohz(scsi_test_busy_delay)); } else { /* we busy wait during cpr_dump or interrupt threads */ drv_usecwait(scsi_test_busy_delay); } } if (rc != TRAN_ACCEPT) { goto exit; } else if (pkt->pkt_reason == CMD_INCOMPLETE && pkt->pkt_state == 0) { goto exit; } else if (pkt->pkt_reason != CMD_CMPLT) { goto exit; } else if (((*pkt->pkt_scbp) & STATUS_MASK) == STATUS_BUSY) { rval = 0; } else { rval = 0; } exit: return (rval); } /* * The implementation of scsi_probe now allows a particular * HBA to intercept the call, for any post- or pre-processing * it may need. The default, if the HBA does not override it, * is to call scsi_hba_probe(), which retains the old functionality * intact. */ int scsi_probe(struct scsi_device *devp, int (*callback)()) { int ret; scsi_hba_tran_t *hba_tran = devp->sd_address.a_hba_tran; if (scsi_check_ss2_LUN_limit(devp) != 0) { /* * caller is trying to probe a strictly-SCSI-2 device * with a LUN that is too large, so do not allow it */ return (SCSIPROBE_NORESP); /* skip probing this one */ } if (hba_tran->tran_tgt_probe != NULL) { ret = (*hba_tran->tran_tgt_probe)(devp, callback); } else { ret = scsi_hba_probe(devp, callback); } if (ret == SCSIPROBE_EXISTS) { create_inquiry_props(devp); /* is this a strictly-SCSI-2 node ?? */ scsi_establish_LUN_limit(devp); } return (ret); } /* * scsi_hba_probe does not do any test unit ready's which access the medium * and could cause busy or not ready conditions. * scsi_hba_probe does 2 inquiries and a rqsense to clear unit attention * and to allow sync negotiation to take place * finally, scsi_hba_probe does one more inquiry which should * reliably tell us what kind of target we have. * A scsi-2 compliant target should be able to return inquiry with 250ms * and we actually wait more than a second after reset. */ int scsi_hba_probe(struct scsi_device *devp, int (*callback)()) { struct scsi_pkt *inq_pkt = NULL; struct scsi_pkt *rq_pkt = NULL; int rval = SCSIPROBE_NOMEM; struct buf *inq_bp = NULL; struct buf *rq_bp = NULL; int (*cb_flag)(); int pass = 1; if (devp->sd_inq == NULL) { devp->sd_inq = (struct scsi_inquiry *) kmem_alloc(SUN_INQSIZE, ((callback == SLEEP_FUNC) ? KM_SLEEP : KM_NOSLEEP)); if (devp->sd_inq == NULL) { goto out; } } if (callback != SLEEP_FUNC && callback != NULL_FUNC) { cb_flag = NULL_FUNC; } else { cb_flag = callback; } inq_bp = scsi_alloc_consistent_buf(ROUTE, (struct buf *)NULL, SUN_INQSIZE, B_READ, cb_flag, NULL); if (inq_bp == NULL) { goto out; } inq_pkt = scsi_init_pkt(ROUTE, (struct scsi_pkt *)NULL, inq_bp, CDB_GROUP0, sizeof (struct scsi_arq_status), 0, PKT_CONSISTENT, callback, NULL); if (inq_pkt == NULL) { if (inq_bp->b_error == 0) rval = SCSIPROBE_NOMEM_CB; goto out; } ASSERT(inq_bp->b_error == 0); (void) scsi_setup_cdb((union scsi_cdb *)inq_pkt->pkt_cdbp, SCMD_INQUIRY, 0, SUN_INQSIZE, 0); inq_pkt->pkt_flags = FLAG_NOINTR|FLAG_NOPARITY; /* * the first inquiry will tell us whether a target * responded * * The FILL_SCSI1_LUN below will find "ansi_ver != 1" on first pass * because of bzero initilization. If this assumption turns out to be * incorrect after we have real sd_inq data (for lun0) we will do a * second pass during which FILL_SCSI1_LUN will place lun in CDB. */ bzero((caddr_t)devp->sd_inq, SUN_INQSIZE); again: FILL_SCSI1_LUN(devp, inq_pkt); if (scsi_test(inq_pkt) < 0) { if (inq_pkt->pkt_reason == CMD_INCOMPLETE) { rval = SCSIPROBE_NORESP; goto out; } else { /* * retry one more time */ if (scsi_test(inq_pkt) < 0) { rval = SCSIPROBE_FAILURE; goto out; } } } /* * if we are lucky, this inquiry succeeded */ if ((inq_pkt->pkt_reason == CMD_CMPLT) && (((*inq_pkt->pkt_scbp) & STATUS_MASK) == 0)) { goto done; } /* * the second inquiry, allows the host adapter to negotiate * synchronous transfer period and offset */ if (scsi_test(inq_pkt) < 0) { if (inq_pkt->pkt_reason == CMD_INCOMPLETE) rval = SCSIPROBE_NORESP; else rval = SCSIPROBE_FAILURE; goto out; } /* * if target is still busy, give up now */ if (((struct scsi_status *)inq_pkt->pkt_scbp)->sts_busy) { rval = SCSIPROBE_BUSY; goto out; } /* * do a rqsense if there was a check condition and ARQ was not done */ if ((inq_pkt->pkt_state & STATE_ARQ_DONE) == 0) { if (((struct scsi_status *)inq_pkt->pkt_scbp)->sts_chk) { /* * prepare rqsense packet * there is no real need for this because the * check condition should have been cleared by now. */ rq_bp = scsi_alloc_consistent_buf(ROUTE, (struct buf *)NULL, (uint_t)SENSE_LENGTH, B_READ, cb_flag, NULL); if (rq_bp == NULL) { goto out; } rq_pkt = scsi_init_pkt(ROUTE, (struct scsi_pkt *)NULL, rq_bp, CDB_GROUP0, 1, 0, PKT_CONSISTENT, callback, NULL); if (rq_pkt == NULL) { if (rq_bp->b_error == 0) rval = SCSIPROBE_NOMEM_CB; goto out; } ASSERT(rq_bp->b_error == 0); (void) scsi_setup_cdb((union scsi_cdb *)rq_pkt-> pkt_cdbp, SCMD_REQUEST_SENSE, 0, SENSE_LENGTH, 0); FILL_SCSI1_LUN(devp, rq_pkt); rq_pkt->pkt_flags = FLAG_NOINTR|FLAG_NOPARITY; /* * The FILL_SCSI1_LUN above will find "inq_ansi != 1" * on first pass, see "again" comment above. * * The controller type is as yet unknown, so we * have to do a throwaway non-extended request sense, * and hope that that clears the check condition for * that unit until we can find out what kind of drive * it is. A non-extended request sense is specified * by stating that the sense block has 0 length, * which is taken to mean that it is four bytes in * length. */ if (scsi_test(rq_pkt) < 0) { rval = SCSIPROBE_FAILURE; goto out; } } } /* * At this point, we are guaranteed that something responded * to this scsi bus target id. We don't know yet what * kind of device it is, or even whether there really is * a logical unit attached (as some SCSI target controllers * lie about a unit being ready, e.g., the Emulex MD21). */ if (scsi_test(inq_pkt) < 0) { rval = SCSIPROBE_FAILURE; goto out; } if (((struct scsi_status *)inq_pkt->pkt_scbp)->sts_busy) { rval = SCSIPROBE_BUSY; goto out; } /* * Okay we sent the INQUIRY command. * * If enough data was transferred, we count that the * Inquiry command succeeded, else we have to assume * that this is a non-CCS scsi target (or a nonexistent * target/lun). */ if (((struct scsi_status *)inq_pkt->pkt_scbp)->sts_chk) { /* * try a request sense if we have a pkt, otherwise * just retry the inquiry one more time */ if (rq_pkt) { (void) scsi_test(rq_pkt); } /* * retry inquiry */ if (scsi_test(inq_pkt) < 0) { rval = SCSIPROBE_FAILURE; goto out; } if (((struct scsi_status *)inq_pkt->pkt_scbp)->sts_chk) { rval = SCSIPROBE_FAILURE; goto out; } } done: /* * If we got a parity error on receive of inquiry data, * we're just plain out of luck because we told the host * adapter to not watch for parity errors. */ if ((inq_pkt->pkt_state & STATE_XFERRED_DATA) == 0 || ((SUN_INQSIZE - inq_pkt->pkt_resid) < SUN_MIN_INQLEN)) { rval = SCSIPROBE_NONCCS; } else { bcopy((caddr_t)inq_bp->b_un.b_addr, (caddr_t)devp->sd_inq, SUN_INQSIZE); rval = SCSIPROBE_EXISTS; } out: /* * If lun > 0 we need to figure out if this is a scsi-1 device where * the "real" lun needs to be embeded into the cdb. */ if ((rval == SCSIPROBE_EXISTS) && (pass == 1) && (devp->sd_address.a_lun > 0) && (devp->sd_inq->inq_ansi == 0x1)) { pass++; if (devp->sd_address.a_lun <= 7) goto again; /* * invalid lun for scsi-1, * return probe failure. */ rval = SCSIPROBE_FAILURE; } if (rq_pkt) { scsi_destroy_pkt(rq_pkt); } if (inq_pkt) { scsi_destroy_pkt(inq_pkt); } if (rq_bp) { scsi_free_consistent_buf(rq_bp); } if (inq_bp) { scsi_free_consistent_buf(inq_bp); } return (rval); } #define A_TO_TRAN(ap) (ap->a_hba_tran) /* * Function to get target and lun identifiers from HBA driver. */ int scsi_get_bus_addr(struct scsi_device *devp, char *name, int len) { struct scsi_address *ap = &devp->sd_address; if ((A_TO_TRAN(ap)->tran_get_bus_addr) == NULL) { (void) sprintf(name, "%x,%x", ap->a_target, ap->a_lun); return (1); } return (*A_TO_TRAN(ap)->tran_get_bus_addr)(devp, name, len); } /* * Function to get name from HBA driver. */ int scsi_get_name(struct scsi_device *devp, char *name, int len) { struct scsi_address *ap = &devp->sd_address; if ((A_TO_TRAN(ap)->tran_get_name) == NULL) { (void) sprintf(name, "%x,%x", ap->a_target, ap->a_lun); return (1); } return (*A_TO_TRAN(ap)->tran_get_name)(devp, name, len); } void create_inquiry_props(struct scsi_device *devp) { struct scsi_inquiry *inq = devp->sd_inq; (void) ndi_prop_update_int(DDI_DEV_T_NONE, devp->sd_dev, INQUIRY_DEVICE_TYPE, (int)inq->inq_dtype); /* * Create the following properties: * * inquiry-vendor-id Vendor id (INQUIRY data bytes 8-15) * inquiry-product-id Product id (INQUIRY data bytes 16-31) * inquiry-revision-id Product Rev level (INQUIRY data bytes 32-35) * * Note we don't support creation of these properties for scsi-1 * devices (as the vid, pid and revision were not defined) and we * don't create the property if they are of zero length when * stripped of Nulls and spaces. */ if (inq->inq_ansi != 1) { if (ddi_prop_exists(DDI_DEV_T_NONE, devp->sd_dev, DDI_PROP_TYPE_STRING, INQUIRY_VENDOR_ID) == 0) (void) scsi_hba_prop_update_inqstring(devp, INQUIRY_VENDOR_ID, inq->inq_vid, sizeof (inq->inq_vid)); if (ddi_prop_exists(DDI_DEV_T_NONE, devp->sd_dev, DDI_PROP_TYPE_STRING, INQUIRY_PRODUCT_ID) == 0) (void) scsi_hba_prop_update_inqstring(devp, INQUIRY_PRODUCT_ID, inq->inq_pid, sizeof (inq->inq_pid)); if (ddi_prop_exists(DDI_DEV_T_NONE, devp->sd_dev, DDI_PROP_TYPE_STRING, INQUIRY_REVISION_ID) == 0) (void) scsi_hba_prop_update_inqstring(devp, INQUIRY_REVISION_ID, inq->inq_revision, sizeof (inq->inq_revision)); } } /* * Create 'inquiry' string properties. An 'inquiry' string gets special * treatment to trim trailing blanks (etc) and ensure null termination. */ int scsi_hba_prop_update_inqstring(struct scsi_device *devp, char *name, char *data, size_t len) { int ilen; char *data_string; int rv; ilen = get_inquiry_prop_len(data, len); ASSERT(ilen <= (int)len); if (ilen <= 0) return (DDI_PROP_INVAL_ARG); /* ensure null termination */ data_string = kmem_zalloc(ilen + 1, KM_SLEEP); bcopy(data, data_string, ilen); rv = ndi_prop_update_string(DDI_DEV_T_NONE, devp->sd_dev, name, data_string); kmem_free(data_string, ilen + 1); return (rv); } /* * This routine returns the true length of the inquiry properties that are to * be created by removing the padded spaces at the end of the inquiry data. * This routine was designed for trimming spaces from the vid, pid and revision * which are defined as being left aligned. In addition, we return 0 length * if the property is full of all 0's or spaces, indicating to the caller that * the device was not ready to return the proper inquiry data as per note 65 in * the scsi-2 spec. */ static int get_inquiry_prop_len(char *property, size_t length) { int retval; int trailer; char *p; retval = length; /* * The vid, pid and revision are left-aligned ascii fields within the * inquiry data. Here we trim the end of these fields by discounting * length associated with trailing spaces or NULL bytes. The remaining * bytes shall be only graphics codes - 0x20 through 0x7e as per the * scsi spec definition. If we have all 0's or spaces, we return 0 * length. For devices that store inquiry data on the device, they * can return 0's or spaces in these fields until the data is avail- * able from the device (See NOTE 65 in the scsi-2 specification * around the inquiry command.) We don't want to create a property in * the case of a device not able to return valid data. */ trailer = 1; for (p = property + length - 1; p >= property; p--) { if (trailer) { if ((*p == ' ') || (*p == '\0')) { retval--; continue; } trailer = 0; } /* each char must be within 0x20 - 0x7e */ if (*p < 0x20 || *p > 0x7e) { retval = -1; break; } } return (retval); } /* * this routine is called from the start of scsi_probe() if a tgt/LUN to be * probed *may* be a request to probe a strictly SCSI-2 target (with respect * to LUNs) -- and this probe may be for a LUN number greater than 7, * which can cause a hardware hang * * return 0 if the probe can proceed, * else return 1, meaning do *NOT* probe this target/LUN */ static int scsi_check_ss2_LUN_limit(struct scsi_device *devp) { struct scsi_address *ap = &(devp->sd_address); dev_info_t *pdevi = (dev_info_t *)DEVI(devp->sd_dev)->devi_parent; int ret_val = 0; /* default return value */ uchar_t *tgt_list; uint_t tgt_nelements; int i; /* * check for what *might* be a problem probe, only we don't * know yet what's really at the destination target/LUN */ if ((ap->a_target >= NTARGETS_WIDE) || (ap->a_lun < NLUNS_PER_TARGET)) { return (0); /* okay to probe this target */ } /* * this *might* be a problematic probe, so look to see * if the inquiry data matches */ SCSI_PROBE_DEBUG2(1, "SCSA pre-probe: checking tgt.LUN=%d.%d\n", ap->a_target, ap->a_lun); SCSI_PROBE_DEBUG1(2, "SCSA pre-probe: scanning parent node name: %s ...\n", ddi_node_name(pdevi)); /* * look for a special property of our parent node that lists * the targets under it for which we do *NOT* want to probe * if LUN>7 -- if the property is found, look to see if our * target ID is on that list */ if (ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, pdevi, DDI_PROP_DONTPASS, SS2_LUN0_TGT_LIST_PROP, &tgt_list, &tgt_nelements) != DDI_PROP_SUCCESS) { /* * no list, so it must be okay to probe this target.LUN */ SCSI_PROBE_DEBUG0(3, "SCSA pre-probe: NO parent prop found\n"); } else { for (i = 0; i < tgt_nelements; i++) { if (tgt_list[i] == ap->a_target) { /* * we found a match, which means we do *NOT* * want to probe the specified target.LUN */ ret_val = 1; break; } } ddi_prop_free(tgt_list); #ifdef DEBUG if (ret_val == 1) { SCSI_PROBE_DEBUG2(1, "SCSA pre-probe: marker node FOUND for " "tgt.LUN=%d.%d, so SKIPPING it\n", ap->a_target, ap->a_lun); } else { SCSI_PROBE_DEBUG0(2, "SCSA pre-probe: NO marker node found" " -- OK to probe\n"); } #endif } return (ret_val); } /* * this routine is called from near the end of scsi_probe(), * to see if the just-probed node is on our list of strictly-SCSI-2 nodes, * and if it is we mark our parent node with this information */ static void scsi_establish_LUN_limit(struct scsi_device *devp) { struct scsi_address *ap = &(devp->sd_address); struct scsi_inquiry *inq = devp->sd_inq; dev_info_t *devi = devp->sd_dev; char *vid = NULL; char *pid = NULL; char *rev = NULL; int i; const ss2_lun0_info_t *p; int bad_target_found = 0; /* * if this inquiry data shows that we have a strictly-SCSI-2 device * at LUN 0, then add it to our list of strictly-SCSI-2 devices, * so that we can avoid probes where LUN>7 on this device later */ if ((ap->a_lun != 0) || (ap->a_target >= NTARGETS_WIDE) || (inq->inq_dtype != DTYPE_PROCESSOR) || (inq->inq_ansi != 2)) { /* * this can't possibly be a node we want to look at, since * either LUN is greater than 0, target is greater than or * eqaual to 16, device type * is not processor, or SCSI level is not SCSI-2, * so don't bother checking for a strictly SCSI-2 * (only 8 LUN) target */ return; /* don't care */ } SCSI_PROBE_DEBUG2(1, "SCSA post-probe: LUN limit on tgt.LUN=%d.%d, " "SCSI-2 PROCESSOR?\n", ap->a_target, ap->a_lun); ASSERT(devi != NULL); /* * we have a node that has been probed that is: LUN=0, target<16, * PROCESSOR-type SCSI target, and at the SCSI-2 level, so * check INQ properties to see if it's in our list of strictly * SCSI-2 targets * * first we have to get the VID/PID/REV INQUIRY properties for * comparison */ if (ddi_prop_lookup_string(DDI_DEV_T_ANY, devi, DDI_PROP_DONTPASS, INQUIRY_VENDOR_ID, &vid) != DDI_PROP_SUCCESS) { SCSI_PROBE_DEBUG1(2, "SCSA post-probe: prop \"%s\" missing\n", INQUIRY_VENDOR_ID); goto dun; } if (ddi_prop_lookup_string(DDI_DEV_T_ANY, devi, DDI_PROP_DONTPASS, INQUIRY_PRODUCT_ID, &pid) != DDI_PROP_SUCCESS) { SCSI_PROBE_DEBUG1(2, "SCSA post-probe: prop \"%s\" missing\n", INQUIRY_PRODUCT_ID); goto dun; } if (ddi_prop_lookup_string(DDI_DEV_T_ANY, devi, DDI_PROP_DONTPASS, INQUIRY_REVISION_ID, &rev) != DDI_PROP_SUCCESS) { SCSI_PROBE_DEBUG1(2, "SCSA post-probe: prop \"%s\" missing\n", INQUIRY_REVISION_ID); goto dun; } SCSI_PROBE_DEBUG3(3, "SCSA post-probe: looking for vid/pid/rev = " "\"%s\"/\"%s\"/\"%s\"\n", vid, pid, rev); /* * now that we have the INQUIRY properties from the device node, * compare them with our known offenders * * Note: comparison is *CASE* *SENSITIVE* */ for (i = 0; i < scsi_probe_strict_s2_size; i++) { p = &scsi_probe_strict_s2_list[i]; if ((strcmp(p->sli_vid, vid) == 0) && (strcmp(p->sli_pid, pid) == 0) && (strcmp(p->sli_rev, rev) == 0)) { /* * we found a match -- do NOT want to probe this one */ SCSI_PROBE_DEBUG3(1, "SCSA post-probe: recording strict SCSI-2 node " "vid/pid/rev = \"%s\"/\"%s\"/\"%s\"\n", vid, pid, rev); /* * set/update private parent-node property, * so we can find out about this node later */ bad_target_found = 1; break; } } /* * either add remove target number from parent property */ scsi_update_parent_ss2_prop(devi, ap->a_target, bad_target_found); dun: if (vid != NULL) { ddi_prop_free(vid); } if (pid != NULL) { ddi_prop_free(pid); } if (rev != NULL) { ddi_prop_free(rev); } } /* * update the parent node to add in the supplied tgt number to the target * list property already present (if any) * * since the target list can never be longer than 16, and each target * number is also small, we can save having to alloc memory by putting * a 16-byte array on the stack and using it for property memory * * if "add_tgt" is set then add the target to the parent's property, else * remove it (if present) */ static void scsi_update_parent_ss2_prop(dev_info_t *devi, int tgt, int add_tgt) { dev_info_t *pdevi = (dev_info_t *)DEVI(devi)->devi_parent; uchar_t *tgt_list; uint_t nelements; uint_t new_nelements; int i; int update_result; uchar_t new_tgt_list[NTARGETS_WIDE]; ASSERT(pdevi != NULL); SCSI_PROBE_DEBUG3(3, "SCSA post-probe: updating parent=%s property to %s tgt=%d\n", ddi_node_name(pdevi), add_tgt ? "add" : "remove", tgt); if (ddi_prop_lookup_byte_array(DDI_DEV_T_ANY, pdevi, DDI_PROP_DONTPASS, SS2_LUN0_TGT_LIST_PROP, &tgt_list, &nelements) == DDI_PROP_SUCCESS) { if (add_tgt) { /* * we found an existing property -- we might need * to add to it */ for (i = 0; i < nelements; i++) { if (tgt_list[i] == tgt) { /* target already in list */ SCSI_PROBE_DEBUG1(2, "SCSA post-probe:" " tgt %d already listed\n", tgt); ddi_prop_free(tgt_list); return; } } /* * need to append our target number to end of list * (no need sorting list, as it's so short) */ /* * will this new entry fit ?? -- it should, since * the array is 16-wide and only keep track of * 16 targets, but check just in case */ new_nelements = nelements + 1; if (new_nelements >= NTARGETS_WIDE) { SCSI_PROBE_DEBUG0(1, "SCSA post-probe: " "internal error: no room " "for more targets?\n"); ddi_prop_free(tgt_list); return; } /* copy existing list then add our tgt number to end */ bcopy((void *)tgt_list, (void *)new_tgt_list, sizeof (uchar_t) * nelements); new_tgt_list[new_nelements - 1] = (uchar_t)tgt; } else { /* * we need to remove our target number from the list, * so copy all of the other target numbers, * skipping ours */ int tgt_removed = 0; new_nelements = 0; for (i = 0; i < nelements; i++) { if (tgt_list[i] != tgt) { new_tgt_list[new_nelements++] = tgt_list[i]; } else { /* skip this target */ tgt_removed++; } } if (!tgt_removed) { SCSI_PROBE_DEBUG1(2, "SCSA post-probe:" " no need to remove tgt %d\n", tgt); ddi_prop_free(tgt_list); return; } } update_result = ddi_prop_update_byte_array(DDI_DEV_T_NONE, pdevi, SS2_LUN0_TGT_LIST_PROP, new_tgt_list, new_nelements); ddi_prop_free(tgt_list); } else { /* * no property yet */ if (add_tgt) { /* * create a property with just our tgt */ new_tgt_list[0] = (uchar_t)tgt; new_nelements = 1; /* just one element */ update_result = ddi_prop_update_byte_array( DDI_DEV_T_NONE, pdevi, SS2_LUN0_TGT_LIST_PROP, new_tgt_list, new_nelements); } else { /* * no list so no need to remove tgt from that list */ return; } } #ifdef DEBUG /* * if we get here we have tried to add/update properties */ if (update_result != DDI_PROP_SUCCESS) { SCSI_PROBE_DEBUG2(1, "SCSA post-probe: can't update parent " "property with tgt=%d (%d)\n", tgt, update_result); } else { if (add_tgt) { SCSI_PROBE_DEBUG3(2, "SCSA post-probe: added tgt=%d to parent " "prop=\"%s\" (now %d entries)\n", tgt, SS2_LUN0_TGT_LIST_PROP, new_nelements); } else { SCSI_PROBE_DEBUG3(2, "SCSA post-probe: removed tgt=%d from parent " "prop=\"%s\" (now %d entries)\n", tgt, SS2_LUN0_TGT_LIST_PROP, new_nelements); } } #endif }