13ccda647Slclee /* 23ccda647Slclee * CDDL HEADER START 33ccda647Slclee * 43ccda647Slclee * The contents of this file are subject to the terms of the 53ccda647Slclee * Common Development and Distribution License, Version 1.0 only 63ccda647Slclee * (the "License"). You may not use this file except in compliance 73ccda647Slclee * with the License. 83ccda647Slclee * 93ccda647Slclee * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 103ccda647Slclee * or http://www.opensolaris.org/os/licensing. 113ccda647Slclee * See the License for the specific language governing permissions 123ccda647Slclee * and limitations under the License. 133ccda647Slclee * 143ccda647Slclee * When distributing Covered Code, include this CDDL HEADER in each 153ccda647Slclee * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 163ccda647Slclee * If applicable, add the following below this CDDL HEADER, with the 173ccda647Slclee * fields enclosed by brackets "[]" replaced with your own identifying 183ccda647Slclee * information: Portions Copyright [yyyy] [name of copyright owner] 193ccda647Slclee * 203ccda647Slclee * CDDL HEADER END 213ccda647Slclee */ 223ccda647Slclee 233ccda647Slclee /* 243ccda647Slclee * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 253ccda647Slclee * Use is subject to license terms. 263ccda647Slclee */ 273ccda647Slclee 283ccda647Slclee #pragma ident "%Z%%M% %I% %E% SMI" 293ccda647Slclee 303ccda647Slclee /* 313ccda647Slclee * This module provides support for labeling operations for target 323ccda647Slclee * drivers. 333ccda647Slclee */ 343ccda647Slclee 353ccda647Slclee #include <sys/scsi/scsi.h> 363ccda647Slclee #include <sys/sunddi.h> 373ccda647Slclee #include <sys/dklabel.h> 383ccda647Slclee #include <sys/dkio.h> 393ccda647Slclee #include <sys/vtoc.h> 403ccda647Slclee #include <sys/dktp/fdisk.h> 413ccda647Slclee #include <sys/vtrace.h> 423ccda647Slclee #include <sys/efi_partition.h> 433ccda647Slclee #include <sys/cmlb.h> 443ccda647Slclee #include <sys/cmlb_impl.h> 453ccda647Slclee 463ccda647Slclee 473ccda647Slclee /* 483ccda647Slclee * Driver minor node structure and data table 493ccda647Slclee */ 503ccda647Slclee struct driver_minor_data { 513ccda647Slclee char *name; 523ccda647Slclee minor_t minor; 533ccda647Slclee int type; 543ccda647Slclee }; 553ccda647Slclee 563ccda647Slclee static struct driver_minor_data dk_minor_data[] = { 573ccda647Slclee {"a", 0, S_IFBLK}, 583ccda647Slclee {"b", 1, S_IFBLK}, 593ccda647Slclee {"c", 2, S_IFBLK}, 603ccda647Slclee {"d", 3, S_IFBLK}, 613ccda647Slclee {"e", 4, S_IFBLK}, 623ccda647Slclee {"f", 5, S_IFBLK}, 633ccda647Slclee {"g", 6, S_IFBLK}, 643ccda647Slclee {"h", 7, S_IFBLK}, 653ccda647Slclee #if defined(_SUNOS_VTOC_16) 663ccda647Slclee {"i", 8, S_IFBLK}, 673ccda647Slclee {"j", 9, S_IFBLK}, 683ccda647Slclee {"k", 10, S_IFBLK}, 693ccda647Slclee {"l", 11, S_IFBLK}, 703ccda647Slclee {"m", 12, S_IFBLK}, 713ccda647Slclee {"n", 13, S_IFBLK}, 723ccda647Slclee {"o", 14, S_IFBLK}, 733ccda647Slclee {"p", 15, S_IFBLK}, 743ccda647Slclee #endif /* defined(_SUNOS_VTOC_16) */ 753ccda647Slclee #if defined(_FIRMWARE_NEEDS_FDISK) 763ccda647Slclee {"q", 16, S_IFBLK}, 773ccda647Slclee {"r", 17, S_IFBLK}, 783ccda647Slclee {"s", 18, S_IFBLK}, 793ccda647Slclee {"t", 19, S_IFBLK}, 803ccda647Slclee {"u", 20, S_IFBLK}, 813ccda647Slclee #endif /* defined(_FIRMWARE_NEEDS_FDISK) */ 823ccda647Slclee {"a,raw", 0, S_IFCHR}, 833ccda647Slclee {"b,raw", 1, S_IFCHR}, 843ccda647Slclee {"c,raw", 2, S_IFCHR}, 853ccda647Slclee {"d,raw", 3, S_IFCHR}, 863ccda647Slclee {"e,raw", 4, S_IFCHR}, 873ccda647Slclee {"f,raw", 5, S_IFCHR}, 883ccda647Slclee {"g,raw", 6, S_IFCHR}, 893ccda647Slclee {"h,raw", 7, S_IFCHR}, 903ccda647Slclee #if defined(_SUNOS_VTOC_16) 913ccda647Slclee {"i,raw", 8, S_IFCHR}, 923ccda647Slclee {"j,raw", 9, S_IFCHR}, 933ccda647Slclee {"k,raw", 10, S_IFCHR}, 943ccda647Slclee {"l,raw", 11, S_IFCHR}, 953ccda647Slclee {"m,raw", 12, S_IFCHR}, 963ccda647Slclee {"n,raw", 13, S_IFCHR}, 973ccda647Slclee {"o,raw", 14, S_IFCHR}, 983ccda647Slclee {"p,raw", 15, S_IFCHR}, 993ccda647Slclee #endif /* defined(_SUNOS_VTOC_16) */ 1003ccda647Slclee #if defined(_FIRMWARE_NEEDS_FDISK) 1013ccda647Slclee {"q,raw", 16, S_IFCHR}, 1023ccda647Slclee {"r,raw", 17, S_IFCHR}, 1033ccda647Slclee {"s,raw", 18, S_IFCHR}, 1043ccda647Slclee {"t,raw", 19, S_IFCHR}, 1053ccda647Slclee {"u,raw", 20, S_IFCHR}, 1063ccda647Slclee #endif /* defined(_FIRMWARE_NEEDS_FDISK) */ 1073ccda647Slclee {0} 1083ccda647Slclee }; 1093ccda647Slclee 1103ccda647Slclee static struct driver_minor_data dk_minor_data_efi[] = { 1113ccda647Slclee {"a", 0, S_IFBLK}, 1123ccda647Slclee {"b", 1, S_IFBLK}, 1133ccda647Slclee {"c", 2, S_IFBLK}, 1143ccda647Slclee {"d", 3, S_IFBLK}, 1153ccda647Slclee {"e", 4, S_IFBLK}, 1163ccda647Slclee {"f", 5, S_IFBLK}, 1173ccda647Slclee {"g", 6, S_IFBLK}, 1183ccda647Slclee {"wd", 7, S_IFBLK}, 1193ccda647Slclee #if defined(_FIRMWARE_NEEDS_FDISK) 1203ccda647Slclee {"q", 16, S_IFBLK}, 1213ccda647Slclee {"r", 17, S_IFBLK}, 1223ccda647Slclee {"s", 18, S_IFBLK}, 1233ccda647Slclee {"t", 19, S_IFBLK}, 1243ccda647Slclee {"u", 20, S_IFBLK}, 1253ccda647Slclee #endif /* defined(_FIRMWARE_NEEDS_FDISK) */ 1263ccda647Slclee {"a,raw", 0, S_IFCHR}, 1273ccda647Slclee {"b,raw", 1, S_IFCHR}, 1283ccda647Slclee {"c,raw", 2, S_IFCHR}, 1293ccda647Slclee {"d,raw", 3, S_IFCHR}, 1303ccda647Slclee {"e,raw", 4, S_IFCHR}, 1313ccda647Slclee {"f,raw", 5, S_IFCHR}, 1323ccda647Slclee {"g,raw", 6, S_IFCHR}, 1333ccda647Slclee {"wd,raw", 7, S_IFCHR}, 1343ccda647Slclee #if defined(_FIRMWARE_NEEDS_FDISK) 1353ccda647Slclee {"q,raw", 16, S_IFCHR}, 1363ccda647Slclee {"r,raw", 17, S_IFCHR}, 1373ccda647Slclee {"s,raw", 18, S_IFCHR}, 1383ccda647Slclee {"t,raw", 19, S_IFCHR}, 1393ccda647Slclee {"u,raw", 20, S_IFCHR}, 1403ccda647Slclee #endif /* defined(_FIRMWARE_NEEDS_FDISK) */ 1413ccda647Slclee {0} 1423ccda647Slclee }; 1433ccda647Slclee 1443ccda647Slclee 1453ccda647Slclee 1463ccda647Slclee extern struct mod_ops mod_miscops; 1473ccda647Slclee 1483ccda647Slclee /* 1493ccda647Slclee * Global buffer and mutex for debug logging 1503ccda647Slclee */ 1513ccda647Slclee static char cmlb_log_buffer[1024]; 1523ccda647Slclee static kmutex_t cmlb_log_mutex; 1533ccda647Slclee 1543ccda647Slclee 1553ccda647Slclee struct cmlb_lun *cmlb_debug_un = NULL; 1563ccda647Slclee uint_t cmlb_level_mask = 0x0; 1573ccda647Slclee 1583ccda647Slclee int cmlb_rot_delay = 4; /* default rotational delay */ 1593ccda647Slclee 1603ccda647Slclee static struct modlmisc modlmisc = { 1613ccda647Slclee &mod_miscops, /* Type of module */ 1623ccda647Slclee "Common Labeling module %I%" 1633ccda647Slclee }; 1643ccda647Slclee 1653ccda647Slclee static struct modlinkage modlinkage = { 1663ccda647Slclee MODREV_1, (void *)&modlmisc, NULL 1673ccda647Slclee }; 1683ccda647Slclee 1693ccda647Slclee /* Local function prototypes */ 1703ccda647Slclee static dev_t cmlb_make_device(struct cmlb_lun *un); 1713ccda647Slclee static int cmlb_validate_geometry(struct cmlb_lun *un, int forcerevalid); 1723ccda647Slclee static void cmlb_resync_geom_caches(struct cmlb_lun *un, diskaddr_t capacity); 1733ccda647Slclee static int cmlb_read_fdisk(struct cmlb_lun *un, diskaddr_t capacity); 1743ccda647Slclee static void cmlb_swap_efi_gpt(efi_gpt_t *e); 1753ccda647Slclee static void cmlb_swap_efi_gpe(int nparts, efi_gpe_t *p); 1763ccda647Slclee static int cmlb_validate_efi(efi_gpt_t *labp); 1773ccda647Slclee static int cmlb_use_efi(struct cmlb_lun *un, diskaddr_t capacity); 1783ccda647Slclee static void cmlb_build_default_label(struct cmlb_lun *un); 1793ccda647Slclee static int cmlb_uselabel(struct cmlb_lun *un, struct dk_label *l); 1803ccda647Slclee static void cmlb_build_user_vtoc(struct cmlb_lun *un, struct vtoc *user_vtoc); 1813ccda647Slclee static int cmlb_build_label_vtoc(struct cmlb_lun *un, struct vtoc *user_vtoc); 1823ccda647Slclee static int cmlb_write_label(struct cmlb_lun *un); 1833ccda647Slclee static int cmlb_set_vtoc(struct cmlb_lun *un, struct dk_label *dkl); 1843ccda647Slclee static void cmlb_clear_efi(struct cmlb_lun *un); 1853ccda647Slclee static void cmlb_clear_vtoc(struct cmlb_lun *un); 1863ccda647Slclee static void cmlb_setup_default_geometry(struct cmlb_lun *un); 1873ccda647Slclee static int cmlb_create_minor_nodes(struct cmlb_lun *un); 1883ccda647Slclee static int cmlb_check_update_blockcount(struct cmlb_lun *un); 1893ccda647Slclee 1903ccda647Slclee #if defined(__i386) || defined(__amd64) 1913ccda647Slclee static int cmlb_update_fdisk_and_vtoc(struct cmlb_lun *un); 1923ccda647Slclee #endif 1933ccda647Slclee 1943ccda647Slclee #if defined(_FIRMWARE_NEEDS_FDISK) 1953ccda647Slclee static int cmlb_has_max_chs_vals(struct ipart *fdp); 1963ccda647Slclee #endif 1973ccda647Slclee 1983ccda647Slclee #if defined(_SUNOS_VTOC_16) 1993ccda647Slclee static void cmlb_convert_geometry(diskaddr_t capacity, struct dk_geom *un_g); 2003ccda647Slclee #endif 2013ccda647Slclee 2023ccda647Slclee static int cmlb_dkio_get_geometry(struct cmlb_lun *un, caddr_t arg, int flag); 2033ccda647Slclee static int cmlb_dkio_set_geometry(struct cmlb_lun *un, caddr_t arg, int flag); 2043ccda647Slclee static int cmlb_dkio_get_partition(struct cmlb_lun *un, caddr_t arg, int flag); 2053ccda647Slclee static int cmlb_dkio_set_partition(struct cmlb_lun *un, caddr_t arg, int flag); 2063ccda647Slclee static int cmlb_dkio_get_efi(struct cmlb_lun *un, caddr_t arg, int flag); 2073ccda647Slclee static int cmlb_dkio_set_efi(struct cmlb_lun *un, dev_t dev, caddr_t arg, 2083ccda647Slclee int flag); 2093ccda647Slclee static int cmlb_dkio_get_vtoc(struct cmlb_lun *un, caddr_t arg, int flag); 2103ccda647Slclee static int cmlb_dkio_set_vtoc(struct cmlb_lun *un, dev_t dev, caddr_t arg, 2113ccda647Slclee int flag); 2123ccda647Slclee static int cmlb_dkio_get_mboot(struct cmlb_lun *un, caddr_t arg, int flag); 2133ccda647Slclee static int cmlb_dkio_set_mboot(struct cmlb_lun *un, caddr_t arg, int flag); 2143ccda647Slclee static int cmlb_dkio_partition(struct cmlb_lun *un, caddr_t arg, int flag); 2153ccda647Slclee 2163ccda647Slclee #if defined(__i386) || defined(__amd64) 2173ccda647Slclee static int cmlb_dkio_get_virtgeom(struct cmlb_lun *un, caddr_t arg, int flag); 2183ccda647Slclee static int cmlb_dkio_get_phygeom(struct cmlb_lun *un, caddr_t arg, int flag); 2193ccda647Slclee static int cmlb_dkio_partinfo(struct cmlb_lun *un, dev_t dev, caddr_t arg, 2203ccda647Slclee int flag); 2213ccda647Slclee #endif 2223ccda647Slclee 2233ccda647Slclee static void cmlb_dbg(uint_t comp, struct cmlb_lun *un, const char *fmt, ...); 2243ccda647Slclee static void cmlb_v_log(dev_info_t *dev, char *label, uint_t level, 2253ccda647Slclee const char *fmt, va_list ap); 2263ccda647Slclee static void cmlb_log(dev_info_t *dev, char *label, uint_t level, 2273ccda647Slclee const char *fmt, ...); 2283ccda647Slclee 2293ccda647Slclee int 2303ccda647Slclee _init(void) 2313ccda647Slclee { 2323ccda647Slclee mutex_init(&cmlb_log_mutex, NULL, MUTEX_DRIVER, NULL); 2333ccda647Slclee return (mod_install(&modlinkage)); 2343ccda647Slclee } 2353ccda647Slclee 2363ccda647Slclee int 2373ccda647Slclee _info(struct modinfo *modinfop) 2383ccda647Slclee { 2393ccda647Slclee return (mod_info(&modlinkage, modinfop)); 2403ccda647Slclee } 2413ccda647Slclee 2423ccda647Slclee int 2433ccda647Slclee _fini(void) 2443ccda647Slclee { 2453ccda647Slclee int err; 2463ccda647Slclee 2473ccda647Slclee if ((err = mod_remove(&modlinkage)) != 0) { 2483ccda647Slclee return (err); 2493ccda647Slclee } 2503ccda647Slclee 2513ccda647Slclee mutex_destroy(&cmlb_log_mutex); 2523ccda647Slclee return (err); 2533ccda647Slclee } 2543ccda647Slclee 2553ccda647Slclee /* 2563ccda647Slclee * cmlb_dbg is used for debugging to log additional info 2573ccda647Slclee * Level of output is controlled via cmlb_level_mask setting. 2583ccda647Slclee */ 2593ccda647Slclee static void 2603ccda647Slclee cmlb_dbg(uint_t comp, struct cmlb_lun *un, const char *fmt, ...) 2613ccda647Slclee { 2623ccda647Slclee va_list ap; 2633ccda647Slclee dev_info_t *dev; 2643ccda647Slclee uint_t level_mask = 0; 2653ccda647Slclee 2663ccda647Slclee ASSERT(un != NULL); 2673ccda647Slclee dev = CMLB_DEVINFO(un); 2683ccda647Slclee ASSERT(dev != NULL); 2693ccda647Slclee /* 2703ccda647Slclee * Filter messages based on the global component and level masks, 2713ccda647Slclee * also print if un matches the value of cmlb_debug_un, or if 2723ccda647Slclee * cmlb_debug_un is set to NULL. 2733ccda647Slclee */ 2743ccda647Slclee if (comp & CMLB_TRACE) 2753ccda647Slclee level_mask |= CMLB_LOGMASK_TRACE; 2763ccda647Slclee 2773ccda647Slclee if (comp & CMLB_INFO) 2783ccda647Slclee level_mask |= CMLB_LOGMASK_INFO; 2793ccda647Slclee 2803ccda647Slclee if (comp & CMLB_ERROR) 2813ccda647Slclee level_mask |= CMLB_LOGMASK_ERROR; 2823ccda647Slclee 2833ccda647Slclee if ((cmlb_level_mask & level_mask) && 2843ccda647Slclee ((cmlb_debug_un == NULL) || (cmlb_debug_un == un))) { 2853ccda647Slclee va_start(ap, fmt); 2863ccda647Slclee cmlb_v_log(dev, CMLB_LABEL(un), CE_CONT, fmt, ap); 2873ccda647Slclee va_end(ap); 2883ccda647Slclee } 2893ccda647Slclee } 2903ccda647Slclee 2913ccda647Slclee /* 2923ccda647Slclee * cmlb_log is basically a duplicate of scsi_log. It is redefined here 2933ccda647Slclee * so that this module does not depend on scsi module. 2943ccda647Slclee */ 2953ccda647Slclee static void 2963ccda647Slclee cmlb_log(dev_info_t *dev, char *label, uint_t level, const char *fmt, ...) 2973ccda647Slclee { 2983ccda647Slclee va_list ap; 2993ccda647Slclee 3003ccda647Slclee va_start(ap, fmt); 3013ccda647Slclee cmlb_v_log(dev, label, level, fmt, ap); 3023ccda647Slclee va_end(ap); 3033ccda647Slclee } 3043ccda647Slclee 3053ccda647Slclee static void 3063ccda647Slclee cmlb_v_log(dev_info_t *dev, char *label, uint_t level, const char *fmt, 3073ccda647Slclee va_list ap) 3083ccda647Slclee { 3093ccda647Slclee static char name[256]; 3103ccda647Slclee int log_only = 0; 3113ccda647Slclee int boot_only = 0; 3123ccda647Slclee int console_only = 0; 3133ccda647Slclee 3143ccda647Slclee mutex_enter(&cmlb_log_mutex); 3153ccda647Slclee 3163ccda647Slclee if (dev) { 3173ccda647Slclee if (level == CE_PANIC || level == CE_WARN || 3183ccda647Slclee level == CE_NOTE) { 3193ccda647Slclee (void) sprintf(name, "%s (%s%d):\n", 3203ccda647Slclee ddi_pathname(dev, cmlb_log_buffer), 3213ccda647Slclee label, ddi_get_instance(dev)); 3223ccda647Slclee } else { 3233ccda647Slclee name[0] = '\0'; 3243ccda647Slclee } 3253ccda647Slclee } else { 3263ccda647Slclee (void) sprintf(name, "%s:", label); 3273ccda647Slclee } 3283ccda647Slclee 3293ccda647Slclee (void) vsprintf(cmlb_log_buffer, fmt, ap); 3303ccda647Slclee 3313ccda647Slclee switch (cmlb_log_buffer[0]) { 3323ccda647Slclee case '!': 3333ccda647Slclee log_only = 1; 3343ccda647Slclee break; 3353ccda647Slclee case '?': 3363ccda647Slclee boot_only = 1; 3373ccda647Slclee break; 3383ccda647Slclee case '^': 3393ccda647Slclee console_only = 1; 3403ccda647Slclee break; 3413ccda647Slclee } 3423ccda647Slclee 3433ccda647Slclee switch (level) { 3443ccda647Slclee case CE_NOTE: 3453ccda647Slclee level = CE_CONT; 3463ccda647Slclee /* FALLTHROUGH */ 3473ccda647Slclee case CE_CONT: 3483ccda647Slclee case CE_WARN: 3493ccda647Slclee case CE_PANIC: 3503ccda647Slclee if (boot_only) { 3513ccda647Slclee cmn_err(level, "?%s\t%s", name, &cmlb_log_buffer[1]); 3523ccda647Slclee } else if (console_only) { 3533ccda647Slclee cmn_err(level, "^%s\t%s", name, &cmlb_log_buffer[1]); 3543ccda647Slclee } else if (log_only) { 3553ccda647Slclee cmn_err(level, "!%s\t%s", name, &cmlb_log_buffer[1]); 3563ccda647Slclee } else { 3573ccda647Slclee cmn_err(level, "%s\t%s", name, cmlb_log_buffer); 3583ccda647Slclee } 3593ccda647Slclee break; 3603ccda647Slclee case CE_IGNORE: 3613ccda647Slclee break; 3623ccda647Slclee default: 3633ccda647Slclee cmn_err(CE_CONT, "^DEBUG: %s\t%s", name, cmlb_log_buffer); 3643ccda647Slclee break; 3653ccda647Slclee } 3663ccda647Slclee mutex_exit(&cmlb_log_mutex); 3673ccda647Slclee } 3683ccda647Slclee 3693ccda647Slclee 3703ccda647Slclee /* 3713ccda647Slclee * cmlb_alloc_handle: 3723ccda647Slclee * 3733ccda647Slclee * Allocates a handle. 3743ccda647Slclee * 3753ccda647Slclee * Arguments: 3763ccda647Slclee * cmlbhandlep pointer to handle 3773ccda647Slclee * 3783ccda647Slclee * Notes: 3793ccda647Slclee * Allocates a handle and stores the allocated handle in the area 3803ccda647Slclee * pointed to by cmlbhandlep 3813ccda647Slclee * 3823ccda647Slclee * Context: 3833ccda647Slclee * Kernel thread only (can sleep). 3843ccda647Slclee */ 3853ccda647Slclee void 3863ccda647Slclee cmlb_alloc_handle(cmlb_handle_t *cmlbhandlep) 3873ccda647Slclee { 3883ccda647Slclee struct cmlb_lun *un; 3893ccda647Slclee 3903ccda647Slclee un = kmem_zalloc(sizeof (struct cmlb_lun), KM_SLEEP); 3913ccda647Slclee ASSERT(cmlbhandlep != NULL); 3923ccda647Slclee 3933ccda647Slclee un->un_state = CMLB_INITED; 3943ccda647Slclee un->un_def_labeltype = CMLB_LABEL_UNDEF; 3953ccda647Slclee mutex_init(CMLB_MUTEX(un), NULL, MUTEX_DRIVER, NULL); 3963ccda647Slclee 3973ccda647Slclee *cmlbhandlep = (cmlb_handle_t)(un); 3983ccda647Slclee } 3993ccda647Slclee 4003ccda647Slclee /* 4013ccda647Slclee * cmlb_free_handle 4023ccda647Slclee * 4033ccda647Slclee * Frees handle. 4043ccda647Slclee * 4053ccda647Slclee * Arguments: 4063ccda647Slclee * cmlbhandlep pointer to handle 4073ccda647Slclee */ 4083ccda647Slclee void 4093ccda647Slclee cmlb_free_handle(cmlb_handle_t *cmlbhandlep) 4103ccda647Slclee { 4113ccda647Slclee struct cmlb_lun *un; 4123ccda647Slclee 4133ccda647Slclee un = (struct cmlb_lun *)*cmlbhandlep; 4143ccda647Slclee if (un != NULL) { 4153ccda647Slclee mutex_destroy(CMLB_MUTEX(un)); 4163ccda647Slclee kmem_free(un, sizeof (struct cmlb_lun)); 4173ccda647Slclee } 4183ccda647Slclee 4193ccda647Slclee } 4203ccda647Slclee 4213ccda647Slclee /* 4223ccda647Slclee * cmlb_attach: 4233ccda647Slclee * 4243ccda647Slclee * Attach handle to device, create minor nodes for device. 4253ccda647Slclee * 4263ccda647Slclee * Arguments: 4273ccda647Slclee * devi pointer to device's dev_info structure. 4283ccda647Slclee * tgopsp pointer to array of functions cmlb can use to callback 4293ccda647Slclee * to target driver. 4303ccda647Slclee * 4313ccda647Slclee * device_type Peripheral device type as defined in 4323ccda647Slclee * scsi/generic/inquiry.h 4333ccda647Slclee * 4343ccda647Slclee * is_removable whether or not device is removable. 4353ccda647Slclee * 0 non-removable, 1 removable. 4363ccda647Slclee * 4373ccda647Slclee * node_type minor node type (as used by ddi_create_minor_node) 4383ccda647Slclee * 4393ccda647Slclee * alter_behavior 4403ccda647Slclee * bit flags: 4413ccda647Slclee * 4423ccda647Slclee * CMLB_CREATE_ALTSLICE_VTOC_16_DTYPE_DIRECT: create 4433ccda647Slclee * an alternate slice for the default label, if 4443ccda647Slclee * device type is DTYPE_DIRECT an architectures default 4453ccda647Slclee * label type is VTOC16. 4463ccda647Slclee * Otherwise alternate slice will no be created. 4473ccda647Slclee * 4483ccda647Slclee * 4493ccda647Slclee * CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8: report a default 4503ccda647Slclee * geometry and label for DKIOCGGEOM and DKIOCGVTOC 4513ccda647Slclee * on architecture with VTOC8 label types. 4523ccda647Slclee * 4533ccda647Slclee * 4543ccda647Slclee * cmlbhandle cmlb handle associated with device 4553ccda647Slclee * 4563ccda647Slclee * Notes: 4573ccda647Slclee * Assumes a default label based on capacity for non-removable devices. 4583ccda647Slclee * If capacity > 1TB, EFI is assumed otherwise VTOC (default VTOC 4593ccda647Slclee * for the architecture). 4603ccda647Slclee * 4613ccda647Slclee * For removable devices, default label type is assumed to be VTOC 4623ccda647Slclee * type. Create minor nodes based on a default label type. 4633ccda647Slclee * Label on the media is not validated. 4643ccda647Slclee * minor number consists of: 4653ccda647Slclee * if _SUNOS_VTOC_8 is defined 4663ccda647Slclee * lowest 3 bits is taken as partition number 4673ccda647Slclee * the rest is instance number 4683ccda647Slclee * if _SUNOS_VTOC_16 is defined 4693ccda647Slclee * lowest 6 bits is taken as partition number 4703ccda647Slclee * the rest is instance number 4713ccda647Slclee * 4723ccda647Slclee * 4733ccda647Slclee * Return values: 4743ccda647Slclee * 0 Success 4753ccda647Slclee * ENXIO creating minor nodes failed. 4763ccda647Slclee */ 4773ccda647Slclee int 4783ccda647Slclee cmlb_attach(dev_info_t *devi, cmlb_tg_ops_t *tgopsp, int device_type, 4793ccda647Slclee int is_removable, char *node_type, int alter_behavior, 4803ccda647Slclee cmlb_handle_t cmlbhandle) 4813ccda647Slclee { 4823ccda647Slclee 4833ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 4843ccda647Slclee diskaddr_t cap; 4853ccda647Slclee int status; 4863ccda647Slclee 4873ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 4883ccda647Slclee 4893ccda647Slclee CMLB_DEVINFO(un) = devi; 4903ccda647Slclee un->cmlb_tg_ops = tgopsp; 4913ccda647Slclee un->un_device_type = device_type; 4923ccda647Slclee un->un_is_removable = is_removable; 4933ccda647Slclee un->un_node_type = node_type; 4943ccda647Slclee un->un_sys_blocksize = DEV_BSIZE; 4953ccda647Slclee un->un_f_geometry_is_valid = FALSE; 4963ccda647Slclee un->un_def_labeltype = CMLB_LABEL_VTOC; 4973ccda647Slclee un->un_alter_behavior = alter_behavior; 4983ccda647Slclee 4993ccda647Slclee if (is_removable != 0) { 5003ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 5013ccda647Slclee status = DK_TG_GETCAP(un, &cap); 5023ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 5033ccda647Slclee if (status == 0 && cap > DK_MAX_BLOCKS) { 5043ccda647Slclee /* set default EFI if > 1TB */ 5053ccda647Slclee un->un_def_labeltype = CMLB_LABEL_EFI; 5063ccda647Slclee } 5073ccda647Slclee } 5083ccda647Slclee 5093ccda647Slclee /* create minor nodes based on default label type */ 5103ccda647Slclee un->un_last_labeltype = CMLB_LABEL_UNDEF; 5113ccda647Slclee un->un_cur_labeltype = CMLB_LABEL_UNDEF; 5123ccda647Slclee 5133ccda647Slclee if (cmlb_create_minor_nodes(un) != 0) { 5143ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 5153ccda647Slclee return (ENXIO); 5163ccda647Slclee } 5173ccda647Slclee 5183ccda647Slclee un->un_state = CMLB_ATTACHED; 5193ccda647Slclee 5203ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 5213ccda647Slclee return (0); 5223ccda647Slclee } 5233ccda647Slclee 5243ccda647Slclee /* 5253ccda647Slclee * cmlb_detach: 5263ccda647Slclee * 5273ccda647Slclee * Invalidate in-core labeling data and remove all minor nodes for 5283ccda647Slclee * the device associate with handle. 5293ccda647Slclee * 5303ccda647Slclee * Arguments: 5313ccda647Slclee * cmlbhandle cmlb handle associated with device. 5323ccda647Slclee * 5333ccda647Slclee */ 5343ccda647Slclee void 5353ccda647Slclee cmlb_detach(cmlb_handle_t cmlbhandle) 5363ccda647Slclee { 5373ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 5383ccda647Slclee 5393ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 5403ccda647Slclee un->un_def_labeltype = CMLB_LABEL_UNDEF; 5413ccda647Slclee un->un_f_geometry_is_valid = FALSE; 5423ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), NULL); 5433ccda647Slclee un->un_state = CMLB_INITED; 5443ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 5453ccda647Slclee } 5463ccda647Slclee 5473ccda647Slclee /* 5483ccda647Slclee * cmlb_validate: 5493ccda647Slclee * 5503ccda647Slclee * Validates label. 5513ccda647Slclee * 5523ccda647Slclee * Arguments 5533ccda647Slclee * cmlbhandle cmlb handle associated with device. 5543ccda647Slclee * 5553ccda647Slclee * Notes: 5563ccda647Slclee * If new label type is different from the current, adjust minor nodes 5573ccda647Slclee * accordingly. 5583ccda647Slclee * 5593ccda647Slclee * Return values: 5603ccda647Slclee * 0 success 5613ccda647Slclee * Note: having fdisk but no solaris partition is assumed 5623ccda647Slclee * success. 5633ccda647Slclee * 5643ccda647Slclee * ENOMEM memory allocation failed 5653ccda647Slclee * EIO i/o errors during read or get capacity 5663ccda647Slclee * EACCESS reservation conflicts 5673ccda647Slclee * EINVAL label was corrupt, or no default label was assumed 5683ccda647Slclee * ENXIO invalid handle 5693ccda647Slclee */ 5703ccda647Slclee int 5713ccda647Slclee cmlb_validate(cmlb_handle_t cmlbhandle) 5723ccda647Slclee { 5733ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 5743ccda647Slclee int rval; 5753ccda647Slclee int ret = 0; 5763ccda647Slclee 5773ccda647Slclee /* 5783ccda647Slclee * Temp work-around checking un for NULL since there is a bug 5793ccda647Slclee * in sd_detach calling this routine from taskq_dispatch 5803ccda647Slclee * inited function. 5813ccda647Slclee */ 5823ccda647Slclee if (un == NULL) 5833ccda647Slclee return (ENXIO); 5843ccda647Slclee 5853ccda647Slclee ASSERT(un != NULL); 5863ccda647Slclee 5873ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 5883ccda647Slclee if (un->un_state < CMLB_ATTACHED) { 5893ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 5903ccda647Slclee return (ENXIO); 5913ccda647Slclee } 5923ccda647Slclee 593*1cec2d8cSshidokht rval = cmlb_validate_geometry((struct cmlb_lun *)cmlbhandle, 1); 5943ccda647Slclee 5953ccda647Slclee if (rval == ENOTSUP) { 5963ccda647Slclee if (un->un_f_geometry_is_valid == TRUE) { 5973ccda647Slclee un->un_cur_labeltype = CMLB_LABEL_EFI; 5983ccda647Slclee ret = 0; 5993ccda647Slclee } else { 6003ccda647Slclee ret = EINVAL; 6013ccda647Slclee } 6023ccda647Slclee } else { 6033ccda647Slclee ret = rval; 6043ccda647Slclee if (ret == 0) 6053ccda647Slclee un->un_cur_labeltype = CMLB_LABEL_VTOC; 6063ccda647Slclee } 6073ccda647Slclee 6083ccda647Slclee if (ret == 0) 6093ccda647Slclee (void) cmlb_create_minor_nodes(un); 6103ccda647Slclee 6113ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 6123ccda647Slclee return (ret); 6133ccda647Slclee } 6143ccda647Slclee 6153ccda647Slclee /* 6163ccda647Slclee * cmlb_invalidate: 6173ccda647Slclee * Invalidate in core label data 6183ccda647Slclee * 6193ccda647Slclee * Arguments: 6203ccda647Slclee * cmlbhandle cmlb handle associated with device. 6213ccda647Slclee */ 6223ccda647Slclee void 6233ccda647Slclee cmlb_invalidate(cmlb_handle_t cmlbhandle) 6243ccda647Slclee { 6253ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 6263ccda647Slclee 6273ccda647Slclee if (un == NULL) 6283ccda647Slclee return; 6293ccda647Slclee 6303ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 6313ccda647Slclee un->un_f_geometry_is_valid = FALSE; 6323ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 6333ccda647Slclee } 6343ccda647Slclee 6353ccda647Slclee /* 6363ccda647Slclee * cmlb_close: 6373ccda647Slclee * 6383ccda647Slclee * Close the device, revert to a default label minor node for the device, 6393ccda647Slclee * if it is removable. 6403ccda647Slclee * 6413ccda647Slclee * Arguments: 6423ccda647Slclee * cmlbhandle cmlb handle associated with device. 6433ccda647Slclee * 6443ccda647Slclee * Return values: 6453ccda647Slclee * 0 Success 6463ccda647Slclee * ENXIO Re-creating minor node failed. 6473ccda647Slclee */ 6483ccda647Slclee int 6493ccda647Slclee cmlb_close(cmlb_handle_t cmlbhandle) 6503ccda647Slclee { 6513ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 6523ccda647Slclee 6533ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 6543ccda647Slclee un->un_f_geometry_is_valid = FALSE; 6553ccda647Slclee 6563ccda647Slclee /* revert to default minor node for this device */ 6573ccda647Slclee if (ISREMOVABLE(un)) { 6583ccda647Slclee un->un_cur_labeltype = CMLB_LABEL_UNDEF; 6593ccda647Slclee (void) cmlb_create_minor_nodes(un); 6603ccda647Slclee } 6613ccda647Slclee 6623ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 6633ccda647Slclee return (0); 6643ccda647Slclee } 6653ccda647Slclee 6663ccda647Slclee /* 6673ccda647Slclee * cmlb_get_devid_block: 6683ccda647Slclee * get the block number where device id is stored. 6693ccda647Slclee * 6703ccda647Slclee * Arguments: 6713ccda647Slclee * cmlbhandle cmlb handle associated with device. 6723ccda647Slclee * devidblockp pointer to block number. 6733ccda647Slclee * 6743ccda647Slclee * Notes: 6753ccda647Slclee * It stores the block number of device id in the area pointed to 6763ccda647Slclee * by devidblockp. 6773ccda647Slclee * with the block number of device id. 6783ccda647Slclee * 6793ccda647Slclee * Return values: 6803ccda647Slclee * 0 success 6813ccda647Slclee * EINVAL device id does not apply to current label type. 6823ccda647Slclee */ 6833ccda647Slclee int 6843ccda647Slclee cmlb_get_devid_block(cmlb_handle_t cmlbhandle, diskaddr_t *devidblockp) 6853ccda647Slclee { 6863ccda647Slclee daddr_t spc, blk, head, cyl; 6873ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 6883ccda647Slclee 6893ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 6903ccda647Slclee if (un->un_state < CMLB_ATTACHED) { 6913ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 6923ccda647Slclee return (EINVAL); 6933ccda647Slclee } 6943ccda647Slclee 6953ccda647Slclee if (un->un_blockcount <= DK_MAX_BLOCKS) { 6963ccda647Slclee /* this geometry doesn't allow us to write a devid */ 6973ccda647Slclee if (un->un_g.dkg_acyl < 2) { 6983ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 6993ccda647Slclee return (EINVAL); 7003ccda647Slclee } 7013ccda647Slclee 7023ccda647Slclee /* 7033ccda647Slclee * Subtract 2 guarantees that the next to last cylinder 7043ccda647Slclee * is used 7053ccda647Slclee */ 7063ccda647Slclee cyl = un->un_g.dkg_ncyl + un->un_g.dkg_acyl - 2; 7073ccda647Slclee spc = un->un_g.dkg_nhead * un->un_g.dkg_nsect; 7083ccda647Slclee head = un->un_g.dkg_nhead - 1; 7093ccda647Slclee blk = (cyl * (spc - un->un_g.dkg_apc)) + 7103ccda647Slclee (head * un->un_g.dkg_nsect) + 1; 7113ccda647Slclee } else { 7123ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 7133ccda647Slclee return (EINVAL); 7143ccda647Slclee } 7153ccda647Slclee *devidblockp = blk; 7163ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 7173ccda647Slclee return (0); 7183ccda647Slclee } 7193ccda647Slclee 7203ccda647Slclee /* 7213ccda647Slclee * cmlb_partinfo: 7223ccda647Slclee * Get partition info for specified partition number. 7233ccda647Slclee * 7243ccda647Slclee * Arguments: 7253ccda647Slclee * cmlbhandle cmlb handle associated with device. 7263ccda647Slclee * part partition number 7273ccda647Slclee * nblocksp pointer to number of blocks 7283ccda647Slclee * startblockp pointer to starting block 7293ccda647Slclee * partnamep pointer to name of partition 7303ccda647Slclee * tagp pointer to tag info 7313ccda647Slclee * 7323ccda647Slclee * 7333ccda647Slclee * Notes: 7343ccda647Slclee * If in-core label is not valid, this functions tries to revalidate 7353ccda647Slclee * the label. If label is valid, it stores the total number of blocks 7363ccda647Slclee * in this partition in the area pointed to by nblocksp, starting 7373ccda647Slclee * block number in area pointed to by startblockp, pointer to partition 7383ccda647Slclee * name in area pointed to by partnamep, and tag value in area 7393ccda647Slclee * pointed by tagp. 7403ccda647Slclee * For EFI labels, tag value will be set to 0. 7413ccda647Slclee * 7423ccda647Slclee * For all nblocksp, startblockp and partnamep, tagp, a value of NULL 7433ccda647Slclee * indicates the corresponding info is not requested. 7443ccda647Slclee * 7453ccda647Slclee * 7463ccda647Slclee * Return values: 7473ccda647Slclee * 0 success 7483ccda647Slclee * EINVAL no valid label or requested partition number is invalid. 7493ccda647Slclee * 7503ccda647Slclee */ 7513ccda647Slclee int 7523ccda647Slclee cmlb_partinfo(cmlb_handle_t cmlbhandle, int part, diskaddr_t *nblocksp, 7533ccda647Slclee diskaddr_t *startblockp, char **partnamep, uint16_t *tagp) 7543ccda647Slclee { 7553ccda647Slclee 7563ccda647Slclee struct cmlb_lun *un = (struct cmlb_lun *)cmlbhandle; 7573ccda647Slclee int rval; 7583ccda647Slclee 7593ccda647Slclee ASSERT(un != NULL); 7603ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 7613ccda647Slclee if (un->un_state < CMLB_ATTACHED) { 7623ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 7633ccda647Slclee return (EINVAL); 7643ccda647Slclee } 7653ccda647Slclee 7663ccda647Slclee if (part < 0 || part >= MAXPART) { 7673ccda647Slclee rval = EINVAL; 7683ccda647Slclee } else { 7693ccda647Slclee (void) cmlb_validate_geometry((struct cmlb_lun *)un, 0); 7703ccda647Slclee if ((un->un_f_geometry_is_valid == FALSE) || 7713ccda647Slclee (part < NDKMAP && un->un_solaris_size == 0)) { 7723ccda647Slclee rval = EINVAL; 7733ccda647Slclee } else { 7743ccda647Slclee if (startblockp != NULL) 7753ccda647Slclee *startblockp = (diskaddr_t)un->un_offset[part]; 7763ccda647Slclee 7773ccda647Slclee if (nblocksp != NULL) 7783ccda647Slclee *nblocksp = (diskaddr_t) 7793ccda647Slclee un->un_map[part].dkl_nblk; 7803ccda647Slclee 7813ccda647Slclee if (tagp != NULL) 7823ccda647Slclee if (un->un_cur_labeltype == CMLB_LABEL_EFI) 7833ccda647Slclee *tagp = V_UNASSIGNED; 7843ccda647Slclee else 7853ccda647Slclee *tagp = un->un_vtoc.v_part[part].p_tag; 7863ccda647Slclee rval = 0; 7873ccda647Slclee } 7883ccda647Slclee 7893ccda647Slclee /* consistent with behavior of sd for getting minor name */ 7903ccda647Slclee if (partnamep != NULL) 7913ccda647Slclee *partnamep = dk_minor_data[part].name; 7923ccda647Slclee 7933ccda647Slclee } 7943ccda647Slclee 7953ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 7963ccda647Slclee return (rval); 7973ccda647Slclee } 7983ccda647Slclee 7993ccda647Slclee /* ARGSUSED */ 8003ccda647Slclee int 8013ccda647Slclee cmlb_ioctl(cmlb_handle_t cmlbhandle, dev_t dev, int cmd, intptr_t arg, 8023ccda647Slclee int flag, cred_t *cred_p, int *rval_p) 8033ccda647Slclee { 8043ccda647Slclee 8053ccda647Slclee int err; 8063ccda647Slclee struct cmlb_lun *un; 8073ccda647Slclee 8083ccda647Slclee un = (struct cmlb_lun *)cmlbhandle; 8093ccda647Slclee 8103ccda647Slclee ASSERT(un != NULL); 8113ccda647Slclee 8123ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 8133ccda647Slclee if (un->un_state < CMLB_ATTACHED) { 8143ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 8153ccda647Slclee return (EIO); 8163ccda647Slclee } 8173ccda647Slclee 8183ccda647Slclee 8193ccda647Slclee if ((cmlb_check_update_blockcount(un) == 0) && 8203ccda647Slclee (un->un_blockcount > DK_MAX_BLOCKS)) { 8213ccda647Slclee switch (cmd) { 8223ccda647Slclee case DKIOCGAPART: 8233ccda647Slclee case DKIOCGGEOM: 8243ccda647Slclee case DKIOCSGEOM: 8253ccda647Slclee case DKIOCGVTOC: 8263ccda647Slclee case DKIOCSVTOC: 8273ccda647Slclee case DKIOCSAPART: 8283ccda647Slclee case DKIOCG_PHYGEOM: 8293ccda647Slclee case DKIOCG_VIRTGEOM: 8303ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 8313ccda647Slclee return (ENOTSUP); 8323ccda647Slclee } 8333ccda647Slclee } 8343ccda647Slclee 8353ccda647Slclee switch (cmd) { 8363ccda647Slclee case DKIOCSVTOC: 8373ccda647Slclee case DKIOCSETEFI: 8383ccda647Slclee case DKIOCSMBOOT: 8393ccda647Slclee break; 8403ccda647Slclee default: 8413ccda647Slclee (void) cmlb_validate_geometry(un, 0); 8423ccda647Slclee if ((un->un_f_geometry_is_valid == TRUE) && 8433ccda647Slclee (un->un_solaris_size > 0)) { 8443ccda647Slclee /* 8453ccda647Slclee * the "geometry_is_valid" flag could be true if we 8463ccda647Slclee * have an fdisk table but no Solaris partition 8473ccda647Slclee */ 8483ccda647Slclee if (un->un_vtoc.v_sanity != VTOC_SANE) { 8493ccda647Slclee /* it is EFI, so return ENOTSUP for these */ 8503ccda647Slclee switch (cmd) { 8513ccda647Slclee case DKIOCGAPART: 8523ccda647Slclee case DKIOCGGEOM: 8533ccda647Slclee case DKIOCGVTOC: 8543ccda647Slclee case DKIOCSVTOC: 8553ccda647Slclee case DKIOCSAPART: 8563ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 8573ccda647Slclee return (ENOTSUP); 8583ccda647Slclee } 8593ccda647Slclee } 8603ccda647Slclee } 8613ccda647Slclee } 8623ccda647Slclee 8633ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 8643ccda647Slclee 8653ccda647Slclee switch (cmd) { 8663ccda647Slclee case DKIOCGGEOM: 8673ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCGGEOM\n"); 8683ccda647Slclee err = cmlb_dkio_get_geometry(un, (caddr_t)arg, flag); 8693ccda647Slclee break; 8703ccda647Slclee 8713ccda647Slclee case DKIOCSGEOM: 8723ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCSGEOM\n"); 8733ccda647Slclee err = cmlb_dkio_set_geometry(un, (caddr_t)arg, flag); 8743ccda647Slclee break; 8753ccda647Slclee 8763ccda647Slclee case DKIOCGAPART: 8773ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCGAPART\n"); 8783ccda647Slclee err = cmlb_dkio_get_partition(un, (caddr_t)arg, flag); 8793ccda647Slclee break; 8803ccda647Slclee 8813ccda647Slclee case DKIOCSAPART: 8823ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCSAPART\n"); 8833ccda647Slclee err = cmlb_dkio_set_partition(un, (caddr_t)arg, flag); 8843ccda647Slclee break; 8853ccda647Slclee 8863ccda647Slclee case DKIOCGVTOC: 8873ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCGVTOC\n"); 8883ccda647Slclee err = cmlb_dkio_get_vtoc(un, (caddr_t)arg, flag); 8893ccda647Slclee break; 8903ccda647Slclee 8913ccda647Slclee case DKIOCGETEFI: 8923ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCGETEFI\n"); 8933ccda647Slclee err = cmlb_dkio_get_efi(un, (caddr_t)arg, flag); 8943ccda647Slclee break; 8953ccda647Slclee 8963ccda647Slclee case DKIOCPARTITION: 8973ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCPARTITION\n"); 8983ccda647Slclee err = cmlb_dkio_partition(un, (caddr_t)arg, flag); 8993ccda647Slclee break; 9003ccda647Slclee 9013ccda647Slclee case DKIOCSVTOC: 9023ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCSVTOC\n"); 9033ccda647Slclee err = cmlb_dkio_set_vtoc(un, dev, (caddr_t)arg, flag); 9043ccda647Slclee break; 9053ccda647Slclee 9063ccda647Slclee case DKIOCSETEFI: 9073ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCSETEFI\n"); 9083ccda647Slclee err = cmlb_dkio_set_efi(un, dev, (caddr_t)arg, flag); 9093ccda647Slclee break; 9103ccda647Slclee 9113ccda647Slclee case DKIOCGMBOOT: 9123ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCGMBOOT\n"); 9133ccda647Slclee err = cmlb_dkio_get_mboot(un, (caddr_t)arg, flag); 9143ccda647Slclee break; 9153ccda647Slclee 9163ccda647Slclee case DKIOCSMBOOT: 9173ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCSMBOOT\n"); 9183ccda647Slclee err = cmlb_dkio_set_mboot(un, (caddr_t)arg, flag); 9193ccda647Slclee break; 9203ccda647Slclee case DKIOCG_PHYGEOM: 9213ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCG_PHYGEOM\n"); 9223ccda647Slclee #if defined(__i386) || defined(__amd64) 9233ccda647Slclee err = cmlb_dkio_get_phygeom(un, (caddr_t)arg, flag); 9243ccda647Slclee #else 9253ccda647Slclee err = ENOTTY; 9263ccda647Slclee #endif 9273ccda647Slclee break; 9283ccda647Slclee case DKIOCG_VIRTGEOM: 9293ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCG_VIRTGEOM\n"); 9303ccda647Slclee #if defined(__i386) || defined(__amd64) 9313ccda647Slclee err = cmlb_dkio_get_virtgeom(un, (caddr_t)arg, flag); 9323ccda647Slclee #else 9333ccda647Slclee err = ENOTTY; 9343ccda647Slclee #endif 9353ccda647Slclee break; 9363ccda647Slclee case DKIOCPARTINFO: 9373ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "DKIOCPARTINFO"); 9383ccda647Slclee #if defined(__i386) || defined(__amd64) 9393ccda647Slclee err = cmlb_dkio_partinfo(un, dev, (caddr_t)arg, flag); 9403ccda647Slclee #else 9413ccda647Slclee err = ENOTTY; 9423ccda647Slclee #endif 9433ccda647Slclee break; 9443ccda647Slclee 9453ccda647Slclee default: 9463ccda647Slclee err = ENOTTY; 9473ccda647Slclee 9483ccda647Slclee } 9493ccda647Slclee return (err); 9503ccda647Slclee } 9513ccda647Slclee 9523ccda647Slclee dev_t 9533ccda647Slclee cmlb_make_device(struct cmlb_lun *un) 9543ccda647Slclee { 9553ccda647Slclee return (makedevice(ddi_name_to_major(ddi_get_name(CMLB_DEVINFO(un))), 9563ccda647Slclee ddi_get_instance(CMLB_DEVINFO(un)) << CMLBUNIT_SHIFT)); 9573ccda647Slclee } 9583ccda647Slclee 9593ccda647Slclee /* 9603ccda647Slclee * Function: cmlb_check_update_blockcount 9613ccda647Slclee * 9623ccda647Slclee * Description: If current capacity value is invalid, obtains the 9633ccda647Slclee * current capacity from target driver. 9643ccda647Slclee * 9653ccda647Slclee * Return Code: 0 success 9663ccda647Slclee * EIO failure 9673ccda647Slclee */ 9683ccda647Slclee static int 9693ccda647Slclee cmlb_check_update_blockcount(struct cmlb_lun *un) 9703ccda647Slclee { 9713ccda647Slclee int status; 9723ccda647Slclee diskaddr_t capacity; 9733ccda647Slclee 9743ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 9753ccda647Slclee 9763ccda647Slclee if (un->un_f_geometry_is_valid == FALSE) { 9773ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 9783ccda647Slclee status = DK_TG_GETCAP(un, &capacity); 9793ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 9803ccda647Slclee if (status == 0 && capacity != 0) { 9813ccda647Slclee un->un_blockcount = capacity; 9823ccda647Slclee return (0); 9833ccda647Slclee } else 9843ccda647Slclee return (EIO); 9853ccda647Slclee } else 9863ccda647Slclee return (0); 9873ccda647Slclee } 9883ccda647Slclee 9893ccda647Slclee /* 9903ccda647Slclee * Function: cmlb_create_minor_nodes 9913ccda647Slclee * 9923ccda647Slclee * Description: Create or adjust the minor device nodes for the instance. 9933ccda647Slclee * Minor nodes are created based on default label type, 9943ccda647Slclee * current label type and last label type we created 9953ccda647Slclee * minor nodes based on. 9963ccda647Slclee * 9973ccda647Slclee * 9983ccda647Slclee * Arguments: un - driver soft state (unit) structure 9993ccda647Slclee * 10003ccda647Slclee * Return Code: 0 success 10013ccda647Slclee * ENXIO failure. 10023ccda647Slclee * 10033ccda647Slclee * Context: Kernel thread context 10043ccda647Slclee */ 10053ccda647Slclee static int 10063ccda647Slclee cmlb_create_minor_nodes(struct cmlb_lun *un) 10073ccda647Slclee { 10083ccda647Slclee struct driver_minor_data *dmdp; 10093ccda647Slclee int instance; 10103ccda647Slclee char name[48]; 10113ccda647Slclee cmlb_label_t newlabeltype; 10123ccda647Slclee 10133ccda647Slclee ASSERT(un != NULL); 10143ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 10153ccda647Slclee 10163ccda647Slclee 10173ccda647Slclee /* check the most common case */ 10183ccda647Slclee if (un->un_cur_labeltype != CMLB_LABEL_UNDEF && 10193ccda647Slclee un->un_last_labeltype == un->un_cur_labeltype) { 10203ccda647Slclee /* do nothing */ 10213ccda647Slclee return (0); 10223ccda647Slclee } 10233ccda647Slclee 10243ccda647Slclee if (un->un_def_labeltype == CMLB_LABEL_UNDEF) { 10253ccda647Slclee /* we should never get here */ 10263ccda647Slclee return (ENXIO); 10273ccda647Slclee } 10283ccda647Slclee 10293ccda647Slclee if (un->un_last_labeltype == CMLB_LABEL_UNDEF) { 10303ccda647Slclee /* first time during attach */ 10313ccda647Slclee newlabeltype = un->un_def_labeltype; 10323ccda647Slclee 10333ccda647Slclee instance = ddi_get_instance(CMLB_DEVINFO(un)); 10343ccda647Slclee 10353ccda647Slclee /* Create all the minor nodes for this target. */ 10363ccda647Slclee dmdp = (newlabeltype == CMLB_LABEL_EFI) ? dk_minor_data_efi : 10373ccda647Slclee dk_minor_data; 10383ccda647Slclee while (dmdp->name != NULL) { 10393ccda647Slclee 10403ccda647Slclee (void) sprintf(name, "%s", dmdp->name); 10413ccda647Slclee 10423ccda647Slclee if (ddi_create_minor_node(CMLB_DEVINFO(un), name, 10433ccda647Slclee dmdp->type, 10443ccda647Slclee (instance << CMLBUNIT_SHIFT) | dmdp->minor, 10453ccda647Slclee un->un_node_type, NULL) == DDI_FAILURE) { 10463ccda647Slclee /* 10473ccda647Slclee * Clean up any nodes that may have been 10483ccda647Slclee * created, in case this fails in the middle 10493ccda647Slclee * of the loop. 10503ccda647Slclee */ 10513ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), NULL); 10523ccda647Slclee return (ENXIO); 10533ccda647Slclee } 10543ccda647Slclee dmdp++; 10553ccda647Slclee } 10563ccda647Slclee un->un_last_labeltype = newlabeltype; 10573ccda647Slclee return (0); 10583ccda647Slclee } 10593ccda647Slclee 10603ccda647Slclee /* Not first time */ 10613ccda647Slclee if (un->un_cur_labeltype == CMLB_LABEL_UNDEF) { 10623ccda647Slclee if (un->un_last_labeltype != un->un_def_labeltype) { 10633ccda647Slclee /* close time, revert to default. */ 10643ccda647Slclee newlabeltype = un->un_def_labeltype; 10653ccda647Slclee } else { 10663ccda647Slclee /* 10673ccda647Slclee * do nothing since the type for which we last created 10683ccda647Slclee * nodes matches the default 10693ccda647Slclee */ 10703ccda647Slclee return (0); 10713ccda647Slclee } 10723ccda647Slclee } else { 10733ccda647Slclee if (un->un_cur_labeltype != un->un_last_labeltype) { 10743ccda647Slclee /* We are not closing, use current label type */ 10753ccda647Slclee newlabeltype = un->un_cur_labeltype; 10763ccda647Slclee } else { 10773ccda647Slclee /* 10783ccda647Slclee * do nothing since the type for which we last created 10793ccda647Slclee * nodes matches the current label type 10803ccda647Slclee */ 10813ccda647Slclee return (0); 10823ccda647Slclee } 10833ccda647Slclee } 10843ccda647Slclee 10853ccda647Slclee instance = ddi_get_instance(CMLB_DEVINFO(un)); 10863ccda647Slclee 10873ccda647Slclee /* 10883ccda647Slclee * Currently we only fix up the s7 node when we are switching 10893ccda647Slclee * label types from or to EFI. This is consistent with 10903ccda647Slclee * current behavior of sd. 10913ccda647Slclee */ 10923ccda647Slclee if (newlabeltype == CMLB_LABEL_EFI && 10933ccda647Slclee un->un_last_labeltype != CMLB_LABEL_EFI) { 10943ccda647Slclee /* from vtoc to EFI */ 10953ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "h"); 10963ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "h,raw"); 10973ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "wd", 10983ccda647Slclee S_IFBLK, (instance << CMLBUNIT_SHIFT) | WD_NODE, 10993ccda647Slclee un->un_node_type, NULL); 11003ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "wd,raw", 11013ccda647Slclee S_IFCHR, (instance << CMLBUNIT_SHIFT) | WD_NODE, 11023ccda647Slclee un->un_node_type, NULL); 11033ccda647Slclee } else { 11043ccda647Slclee /* from efi to vtoc */ 11053ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "wd"); 11063ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "wd,raw"); 11073ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "h", 11083ccda647Slclee S_IFBLK, (instance << CMLBUNIT_SHIFT) | WD_NODE, 11093ccda647Slclee un->un_node_type, NULL); 11103ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "h,raw", 11113ccda647Slclee S_IFCHR, (instance << CMLBUNIT_SHIFT) | WD_NODE, 11123ccda647Slclee un->un_node_type, NULL); 11133ccda647Slclee } 11143ccda647Slclee 11153ccda647Slclee un->un_last_labeltype = newlabeltype; 11163ccda647Slclee return (0); 11173ccda647Slclee } 11183ccda647Slclee 11193ccda647Slclee /* 11203ccda647Slclee * Function: cmlb_validate_geometry 11213ccda647Slclee * 11223ccda647Slclee * Description: Read the label from the disk (if present). Update the unit's 11233ccda647Slclee * geometry and vtoc information from the data in the label. 11243ccda647Slclee * Verify that the label is valid. 11253ccda647Slclee * 11263ccda647Slclee * Arguments: un - driver soft state (unit) structure 11273ccda647Slclee * 11283ccda647Slclee * Return Code: 0 - Successful completion 11293ccda647Slclee * EINVAL - Invalid value in un->un_tgt_blocksize or 11303ccda647Slclee * un->un_blockcount; or label on disk is corrupted 11313ccda647Slclee * or unreadable. 11323ccda647Slclee * EACCES - Reservation conflict at the device. 11333ccda647Slclee * ENOMEM - Resource allocation error 11343ccda647Slclee * ENOTSUP - geometry not applicable 11353ccda647Slclee * 11363ccda647Slclee * Context: Kernel thread only (can sleep). 11373ccda647Slclee */ 11383ccda647Slclee static int 11393ccda647Slclee cmlb_validate_geometry(struct cmlb_lun *un, int forcerevalid) 11403ccda647Slclee { 11413ccda647Slclee int label_error = 0; 11423ccda647Slclee diskaddr_t capacity; 11433ccda647Slclee int count; 11443ccda647Slclee 11453ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 11463ccda647Slclee 11473ccda647Slclee if ((un->un_f_geometry_is_valid == TRUE) && (forcerevalid == 0)) { 11483ccda647Slclee if (un->un_cur_labeltype == CMLB_LABEL_EFI) 11493ccda647Slclee return (ENOTSUP); 11503ccda647Slclee return (0); 11513ccda647Slclee } 11523ccda647Slclee 11533ccda647Slclee if (cmlb_check_update_blockcount(un) != 0) 11543ccda647Slclee return (EIO); 11553ccda647Slclee 11563ccda647Slclee capacity = un->un_blockcount; 11573ccda647Slclee 11583ccda647Slclee #if defined(_SUNOS_VTOC_16) 11593ccda647Slclee /* 11603ccda647Slclee * Set up the "whole disk" fdisk partition; this should always 11613ccda647Slclee * exist, regardless of whether the disk contains an fdisk table 11623ccda647Slclee * or vtoc. 11633ccda647Slclee */ 11643ccda647Slclee un->un_map[P0_RAW_DISK].dkl_cylno = 0; 11653ccda647Slclee /* 11663ccda647Slclee * note if capacity > uint32_max we should be using efi, 11673ccda647Slclee * and not use p0, so the truncation does not matter. 11683ccda647Slclee */ 11693ccda647Slclee un->un_map[P0_RAW_DISK].dkl_nblk = capacity; 11703ccda647Slclee #endif 11713ccda647Slclee /* 11723ccda647Slclee * Refresh the logical and physical geometry caches. 11733ccda647Slclee * (data from MODE SENSE format/rigid disk geometry pages, 11743ccda647Slclee * and scsi_ifgetcap("geometry"). 11753ccda647Slclee */ 11763ccda647Slclee cmlb_resync_geom_caches(un, capacity); 11773ccda647Slclee 11783ccda647Slclee label_error = cmlb_use_efi(un, capacity); 11793ccda647Slclee if (label_error == 0) { 11803ccda647Slclee 11813ccda647Slclee /* found a valid EFI label */ 11823ccda647Slclee cmlb_dbg(CMLB_TRACE, un, 11833ccda647Slclee "cmlb_validate_geometry: found EFI label\n"); 11843ccda647Slclee /* 11853ccda647Slclee * solaris_size and geometry_is_valid are set in 11863ccda647Slclee * cmlb_use_efi 11873ccda647Slclee */ 11883ccda647Slclee return (ENOTSUP); 1189*1cec2d8cSshidokht } else { 1190*1cec2d8cSshidokht if ((label_error != ESRCH) && (label_error != EINVAL)) { 1191*1cec2d8cSshidokht cmlb_dbg(CMLB_ERROR, un, "cmlb_use_efi failed %d\n", 1192*1cec2d8cSshidokht label_error); 1193*1cec2d8cSshidokht return (label_error); 1194*1cec2d8cSshidokht } 11953ccda647Slclee } 11963ccda647Slclee 11973ccda647Slclee /* NO EFI label found */ 11983ccda647Slclee 11993ccda647Slclee if (capacity > DK_MAX_BLOCKS) { 12003ccda647Slclee if (label_error == ESRCH) { 12013ccda647Slclee /* 12023ccda647Slclee * they've configured a LUN over 1TB, but used 12033ccda647Slclee * format.dat to restrict format's view of the 12043ccda647Slclee * capacity to be under 1TB 12053ccda647Slclee */ 12063ccda647Slclee /* i.e > 1Tb with a VTOC < 1TB */ 12073ccda647Slclee 12083ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_WARN, 12093ccda647Slclee "is >1TB and has a VTOC label: use format(1M) to " 12103ccda647Slclee "either decrease the"); 12113ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_CONT, 12123ccda647Slclee "size to be < 1TB or relabel the disk with an EFI " 12133ccda647Slclee "label"); 12143ccda647Slclee } else { 12153ccda647Slclee /* unlabeled disk over 1TB */ 12163ccda647Slclee return (ENOTSUP); 12173ccda647Slclee } 12183ccda647Slclee } 12193ccda647Slclee 12203ccda647Slclee label_error = 0; 12213ccda647Slclee 12223ccda647Slclee /* 12233ccda647Slclee * at this point it is either labeled with a VTOC or it is 12243ccda647Slclee * under 1TB 12253ccda647Slclee */ 12263ccda647Slclee 12273ccda647Slclee /* 12283ccda647Slclee * Only DIRECT ACCESS devices will have Sun labels. 12293ccda647Slclee * CD's supposedly have a Sun label, too 12303ccda647Slclee */ 12313ccda647Slclee if (un->un_device_type == DTYPE_DIRECT || ISREMOVABLE(un)) { 12323ccda647Slclee struct dk_label *dkl; 12333ccda647Slclee offset_t label_addr; 12343ccda647Slclee int rval; 12353ccda647Slclee size_t buffer_size; 12363ccda647Slclee 12373ccda647Slclee /* 12383ccda647Slclee * Note: This will set up un->un_solaris_size and 12393ccda647Slclee * un->un_solaris_offset. 12403ccda647Slclee */ 12413ccda647Slclee rval = cmlb_read_fdisk(un, capacity); 12423ccda647Slclee if (rval != 0) { 12433ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 12443ccda647Slclee return (rval); 12453ccda647Slclee } 12463ccda647Slclee 12473ccda647Slclee if (un->un_solaris_size <= DK_LABEL_LOC) { 12483ccda647Slclee /* 12493ccda647Slclee * Found fdisk table but no Solaris partition entry, 12503ccda647Slclee * so don't call cmlb_uselabel() and don't create 12513ccda647Slclee * a default label. 12523ccda647Slclee */ 12533ccda647Slclee label_error = 0; 12543ccda647Slclee un->un_f_geometry_is_valid = TRUE; 12553ccda647Slclee goto no_solaris_partition; 12563ccda647Slclee } 12573ccda647Slclee 12583ccda647Slclee label_addr = (daddr_t)(un->un_solaris_offset + DK_LABEL_LOC); 12593ccda647Slclee 12603ccda647Slclee buffer_size = sizeof (struct dk_label); 12613ccda647Slclee 12623ccda647Slclee cmlb_dbg(CMLB_TRACE, un, "cmlb_validate_geometry: " 12633ccda647Slclee "label_addr: 0x%x allocation size: 0x%x\n", 12643ccda647Slclee label_addr, buffer_size); 12653ccda647Slclee 12663ccda647Slclee if ((dkl = kmem_zalloc(buffer_size, KM_NOSLEEP)) == NULL) 12673ccda647Slclee return (ENOMEM); 12683ccda647Slclee 12693ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 12703ccda647Slclee rval = DK_TG_READ(un, dkl, label_addr, buffer_size); 12713ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 12723ccda647Slclee 12733ccda647Slclee switch (rval) { 12743ccda647Slclee case 0: 12753ccda647Slclee /* 12763ccda647Slclee * cmlb_uselabel will establish that the geometry 12773ccda647Slclee * is valid. 12783ccda647Slclee */ 12793ccda647Slclee if (cmlb_uselabel(un, 12803ccda647Slclee (struct dk_label *)(uintptr_t)dkl) != 12813ccda647Slclee CMLB_LABEL_IS_VALID) { 12823ccda647Slclee label_error = EINVAL; 12833ccda647Slclee } else 12843ccda647Slclee un->un_vtoc_label_is_from_media = 1; 12853ccda647Slclee break; 12863ccda647Slclee case EACCES: 12873ccda647Slclee label_error = EACCES; 12883ccda647Slclee break; 12893ccda647Slclee default: 12903ccda647Slclee label_error = EINVAL; 12913ccda647Slclee break; 12923ccda647Slclee } 12933ccda647Slclee 12943ccda647Slclee kmem_free(dkl, buffer_size); 12953ccda647Slclee } 12963ccda647Slclee 12973ccda647Slclee /* 12983ccda647Slclee * If a valid label was not found, AND if no reservation conflict 12993ccda647Slclee * was detected, then go ahead and create a default label (4069506). 13003ccda647Slclee * 13013ccda647Slclee * Note: currently, for VTOC_8 devices, the default label is created 13023ccda647Slclee * for removables only. For VTOC_16 devices, the default label will 13033ccda647Slclee * be created for both removables and non-removables alike. 13043ccda647Slclee * (see cmlb_build_default_label) 13053ccda647Slclee */ 13063ccda647Slclee #if defined(_SUNOS_VTOC_8) 13073ccda647Slclee if (ISREMOVABLE(un) && (label_error != EACCES)) { 13083ccda647Slclee #elif defined(_SUNOS_VTOC_16) 13093ccda647Slclee if (label_error != EACCES) { 13103ccda647Slclee #endif 13113ccda647Slclee if (un->un_f_geometry_is_valid == FALSE) { 13123ccda647Slclee cmlb_build_default_label(un); 13133ccda647Slclee } 13143ccda647Slclee label_error = 0; 13153ccda647Slclee } 13163ccda647Slclee 13173ccda647Slclee no_solaris_partition: 13183ccda647Slclee 13193ccda647Slclee #if defined(_SUNOS_VTOC_16) 13203ccda647Slclee /* 13213ccda647Slclee * If we have valid geometry, set up the remaining fdisk partitions. 13223ccda647Slclee * Note that dkl_cylno is not used for the fdisk map entries, so 13233ccda647Slclee * we set it to an entirely bogus value. 13243ccda647Slclee */ 13253ccda647Slclee for (count = 0; count < FD_NUMPART; count++) { 13263ccda647Slclee un->un_map[FDISK_P1 + count].dkl_cylno = -1; 13273ccda647Slclee un->un_map[FDISK_P1 + count].dkl_nblk = 13283ccda647Slclee un->un_fmap[count].fmap_nblk; 13293ccda647Slclee 13303ccda647Slclee un->un_offset[FDISK_P1 + count] = 13313ccda647Slclee un->un_fmap[count].fmap_start; 13323ccda647Slclee } 13333ccda647Slclee #endif 13343ccda647Slclee 13353ccda647Slclee for (count = 0; count < NDKMAP; count++) { 13363ccda647Slclee #if defined(_SUNOS_VTOC_8) 13373ccda647Slclee struct dk_map *lp = &un->un_map[count]; 13383ccda647Slclee un->un_offset[count] = 13393ccda647Slclee un->un_g.dkg_nhead * un->un_g.dkg_nsect * lp->dkl_cylno; 13403ccda647Slclee #elif defined(_SUNOS_VTOC_16) 13413ccda647Slclee struct dkl_partition *vp = &un->un_vtoc.v_part[count]; 13423ccda647Slclee 13433ccda647Slclee un->un_offset[count] = vp->p_start + un->un_solaris_offset; 13443ccda647Slclee #else 13453ccda647Slclee #error "No VTOC format defined." 13463ccda647Slclee #endif 13473ccda647Slclee } 13483ccda647Slclee 13493ccda647Slclee return (label_error); 13503ccda647Slclee } 13513ccda647Slclee 13523ccda647Slclee #if defined(_SUNOS_VTOC_16) 13533ccda647Slclee /* 13543ccda647Slclee * Macro: MAX_BLKS 13553ccda647Slclee * 13563ccda647Slclee * This macro is used for table entries where we need to have the largest 13573ccda647Slclee * possible sector value for that head & SPT (sectors per track) 13583ccda647Slclee * combination. Other entries for some smaller disk sizes are set by 13593ccda647Slclee * convention to match those used by X86 BIOS usage. 13603ccda647Slclee */ 13613ccda647Slclee #define MAX_BLKS(heads, spt) UINT16_MAX * heads * spt, heads, spt 13623ccda647Slclee 13633ccda647Slclee /* 13643ccda647Slclee * Function: cmlb_convert_geometry 13653ccda647Slclee * 13663ccda647Slclee * Description: Convert physical geometry into a dk_geom structure. In 13673ccda647Slclee * other words, make sure we don't wrap 16-bit values. 13683ccda647Slclee * e.g. converting from geom_cache to dk_geom 13693ccda647Slclee * 13703ccda647Slclee * Context: Kernel thread only 13713ccda647Slclee */ 13723ccda647Slclee static void 13733ccda647Slclee cmlb_convert_geometry(diskaddr_t capacity, struct dk_geom *un_g) 13743ccda647Slclee { 13753ccda647Slclee int i; 13763ccda647Slclee static const struct chs_values { 13773ccda647Slclee uint_t max_cap; /* Max Capacity for this HS. */ 13783ccda647Slclee uint_t nhead; /* Heads to use. */ 13793ccda647Slclee uint_t nsect; /* SPT to use. */ 13803ccda647Slclee } CHS_values[] = { 13813ccda647Slclee {0x00200000, 64, 32}, /* 1GB or smaller disk. */ 13823ccda647Slclee {0x01000000, 128, 32}, /* 8GB or smaller disk. */ 13833ccda647Slclee {MAX_BLKS(255, 63)}, /* 502.02GB or smaller disk. */ 13843ccda647Slclee {MAX_BLKS(255, 126)}, /* .98TB or smaller disk. */ 13853ccda647Slclee {DK_MAX_BLOCKS, 255, 189} /* Max size is just under 1TB */ 13863ccda647Slclee }; 13873ccda647Slclee 13883ccda647Slclee /* Unlabeled SCSI floppy device */ 13893ccda647Slclee if (capacity <= 0x1000) { 13903ccda647Slclee un_g->dkg_nhead = 2; 13913ccda647Slclee un_g->dkg_ncyl = 80; 13923ccda647Slclee un_g->dkg_nsect = capacity / (un_g->dkg_nhead * un_g->dkg_ncyl); 13933ccda647Slclee return; 13943ccda647Slclee } 13953ccda647Slclee 13963ccda647Slclee /* 13973ccda647Slclee * For all devices we calculate cylinders using the 13983ccda647Slclee * heads and sectors we assign based on capacity of the 13993ccda647Slclee * device. The table is designed to be compatible with the 14003ccda647Slclee * way other operating systems lay out fdisk tables for X86 14013ccda647Slclee * and to insure that the cylinders never exceed 65535 to 14023ccda647Slclee * prevent problems with X86 ioctls that report geometry. 14033ccda647Slclee * We use SPT that are multiples of 63, since other OSes that 14043ccda647Slclee * are not limited to 16-bits for cylinders stop at 63 SPT 14053ccda647Slclee * we make do by using multiples of 63 SPT. 14063ccda647Slclee * 14073ccda647Slclee * Note than capacities greater than or equal to 1TB will simply 14083ccda647Slclee * get the largest geometry from the table. This should be okay 14093ccda647Slclee * since disks this large shouldn't be using CHS values anyway. 14103ccda647Slclee */ 14113ccda647Slclee for (i = 0; CHS_values[i].max_cap < capacity && 14123ccda647Slclee CHS_values[i].max_cap != DK_MAX_BLOCKS; i++) 14133ccda647Slclee ; 14143ccda647Slclee 14153ccda647Slclee un_g->dkg_nhead = CHS_values[i].nhead; 14163ccda647Slclee un_g->dkg_nsect = CHS_values[i].nsect; 14173ccda647Slclee } 14183ccda647Slclee #endif 14193ccda647Slclee 14203ccda647Slclee /* 14213ccda647Slclee * Function: cmlb_resync_geom_caches 14223ccda647Slclee * 14233ccda647Slclee * Description: (Re)initialize both geometry caches: the virtual geometry 14243ccda647Slclee * information is extracted from the HBA (the "geometry" 14253ccda647Slclee * capability), and the physical geometry cache data is 14263ccda647Slclee * generated by issuing MODE SENSE commands. 14273ccda647Slclee * 14283ccda647Slclee * Arguments: un - driver soft state (unit) structure 14293ccda647Slclee * capacity - disk capacity in #blocks 14303ccda647Slclee * 14313ccda647Slclee * Context: Kernel thread only (can sleep). 14323ccda647Slclee */ 14333ccda647Slclee static void 14343ccda647Slclee cmlb_resync_geom_caches(struct cmlb_lun *un, diskaddr_t capacity) 14353ccda647Slclee { 14363ccda647Slclee struct cmlb_geom pgeom; 14373ccda647Slclee struct cmlb_geom lgeom; 14383ccda647Slclee struct cmlb_geom *pgeomp = &pgeom; 14393ccda647Slclee unsigned short nhead; 14403ccda647Slclee unsigned short nsect; 14413ccda647Slclee int spc; 14423ccda647Slclee int ret; 14433ccda647Slclee 14443ccda647Slclee ASSERT(un != NULL); 14453ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 14463ccda647Slclee 14473ccda647Slclee /* 14483ccda647Slclee * Ask the controller for its logical geometry. 14493ccda647Slclee * Note: if the HBA does not support scsi_ifgetcap("geometry"), 14503ccda647Slclee * then the lgeom cache will be invalid. 14513ccda647Slclee */ 14523ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 14533ccda647Slclee bzero(&lgeom, sizeof (struct cmlb_geom)); 14543ccda647Slclee ret = DK_TG_GETVIRTGEOM(un, &lgeom); 14553ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 14563ccda647Slclee 14573ccda647Slclee bcopy(&lgeom, &un->un_lgeom, sizeof (un->un_lgeom)); 14583ccda647Slclee 14593ccda647Slclee /* 14603ccda647Slclee * Initialize the pgeom cache from lgeom, so that if MODE SENSE 14613ccda647Slclee * doesn't work, DKIOCG_PHYSGEOM can return reasonable values. 14623ccda647Slclee */ 14633ccda647Slclee if (ret != 0 || un->un_lgeom.g_nsect == 0 || 14643ccda647Slclee un->un_lgeom.g_nhead == 0) { 14653ccda647Slclee /* 14663ccda647Slclee * Note: Perhaps this needs to be more adaptive? The rationale 14673ccda647Slclee * is that, if there's no HBA geometry from the HBA driver, any 14683ccda647Slclee * guess is good, since this is the physical geometry. If MODE 14693ccda647Slclee * SENSE fails this gives a max cylinder size for non-LBA access 14703ccda647Slclee */ 14713ccda647Slclee nhead = 255; 14723ccda647Slclee nsect = 63; 14733ccda647Slclee } else { 14743ccda647Slclee nhead = un->un_lgeom.g_nhead; 14753ccda647Slclee nsect = un->un_lgeom.g_nsect; 14763ccda647Slclee } 14773ccda647Slclee 14783ccda647Slclee if (ISCD(un)) { 14793ccda647Slclee pgeomp->g_nhead = 1; 14803ccda647Slclee pgeomp->g_nsect = nsect * nhead; 14813ccda647Slclee } else { 14823ccda647Slclee pgeomp->g_nhead = nhead; 14833ccda647Slclee pgeomp->g_nsect = nsect; 14843ccda647Slclee } 14853ccda647Slclee 14863ccda647Slclee spc = pgeomp->g_nhead * pgeomp->g_nsect; 14873ccda647Slclee pgeomp->g_capacity = capacity; 14883ccda647Slclee pgeomp->g_ncyl = pgeomp->g_capacity / spc; 14893ccda647Slclee pgeomp->g_acyl = 0; 14903ccda647Slclee 14913ccda647Slclee /* 14923ccda647Slclee * Retrieve fresh geometry data from the hardware, stash it 14933ccda647Slclee * here temporarily before we rebuild the incore label. 14943ccda647Slclee * 14953ccda647Slclee * We want to use the MODE SENSE commands to derive the 14963ccda647Slclee * physical geometry of the device, but if either command 14973ccda647Slclee * fails, the logical geometry is used as the fallback for 14983ccda647Slclee * disk label geometry. 14993ccda647Slclee */ 15003ccda647Slclee 15013ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 15023ccda647Slclee (void) DK_TG_GETPHYGEOM(un, pgeomp); 15033ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 15043ccda647Slclee 15053ccda647Slclee /* 15063ccda647Slclee * Now update the real copy while holding the mutex. This 15073ccda647Slclee * way the global copy is never in an inconsistent state. 15083ccda647Slclee */ 15093ccda647Slclee bcopy(pgeomp, &un->un_pgeom, sizeof (un->un_pgeom)); 15103ccda647Slclee 15113ccda647Slclee cmlb_dbg(CMLB_INFO, un, "cmlb_resync_geom_caches: " 15123ccda647Slclee "(cached from lgeom)\n"); 15133ccda647Slclee cmlb_dbg(CMLB_INFO, un, 15143ccda647Slclee " ncyl: %ld; acyl: %d; nhead: %d; nsect: %d\n", 15153ccda647Slclee un->un_pgeom.g_ncyl, un->un_pgeom.g_acyl, 15163ccda647Slclee un->un_pgeom.g_nhead, un->un_pgeom.g_nsect); 15173ccda647Slclee cmlb_dbg(CMLB_INFO, un, " lbasize: %d; capacity: %ld; " 15183ccda647Slclee "intrlv: %d; rpm: %d\n", un->un_pgeom.g_secsize, 15193ccda647Slclee un->un_pgeom.g_capacity, un->un_pgeom.g_intrlv, 15203ccda647Slclee un->un_pgeom.g_rpm); 15213ccda647Slclee } 15223ccda647Slclee 15233ccda647Slclee 15243ccda647Slclee /* 15253ccda647Slclee * Function: cmlb_read_fdisk 15263ccda647Slclee * 15273ccda647Slclee * Description: utility routine to read the fdisk table. 15283ccda647Slclee * 15293ccda647Slclee * Arguments: un - driver soft state (unit) structure 15303ccda647Slclee * 15313ccda647Slclee * Return Code: 0 for success (includes not reading for no_fdisk_present case 15323ccda647Slclee * errnos from tg_rw if failed to read the first block. 15333ccda647Slclee * 15343ccda647Slclee * Context: Kernel thread only (can sleep). 15353ccda647Slclee */ 15363ccda647Slclee /* ARGSUSED */ 15373ccda647Slclee static int 15383ccda647Slclee cmlb_read_fdisk(struct cmlb_lun *un, diskaddr_t capacity) 15393ccda647Slclee { 15403ccda647Slclee #if defined(_NO_FDISK_PRESENT) 15413ccda647Slclee 15423ccda647Slclee un->un_solaris_offset = 0; 15433ccda647Slclee un->un_solaris_size = capacity; 15443ccda647Slclee bzero(un->un_fmap, sizeof (struct fmap) * FD_NUMPART); 15453ccda647Slclee return (0); 15463ccda647Slclee 15473ccda647Slclee #elif defined(_FIRMWARE_NEEDS_FDISK) 15483ccda647Slclee 15493ccda647Slclee struct ipart *fdp; 15503ccda647Slclee struct mboot *mbp; 15513ccda647Slclee struct ipart fdisk[FD_NUMPART]; 15523ccda647Slclee int i; 15533ccda647Slclee char sigbuf[2]; 15543ccda647Slclee caddr_t bufp; 15553ccda647Slclee int uidx; 15563ccda647Slclee int rval; 15573ccda647Slclee int lba = 0; 15583ccda647Slclee uint_t solaris_offset; /* offset to solaris part. */ 15593ccda647Slclee daddr_t solaris_size; /* size of solaris partition */ 15603ccda647Slclee uint32_t blocksize; 15613ccda647Slclee 15623ccda647Slclee ASSERT(un != NULL); 15633ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 15643ccda647Slclee 15653ccda647Slclee /* 15663ccda647Slclee * Start off assuming no fdisk table 15673ccda647Slclee */ 15683ccda647Slclee solaris_offset = 0; 15693ccda647Slclee solaris_size = capacity; 15703ccda647Slclee 15713ccda647Slclee blocksize = 512; 15723ccda647Slclee 15733ccda647Slclee bufp = kmem_zalloc(blocksize, KM_SLEEP); 15743ccda647Slclee 15753ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 15763ccda647Slclee rval = DK_TG_READ(un, bufp, 0, blocksize); 15773ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 15783ccda647Slclee 15793ccda647Slclee if (rval != 0) { 15803ccda647Slclee cmlb_dbg(CMLB_ERROR, un, 15813ccda647Slclee "cmlb_read_fdisk: fdisk read err\n"); 15823ccda647Slclee kmem_free(bufp, blocksize); 15833ccda647Slclee return (rval); 15843ccda647Slclee } 15853ccda647Slclee 15863ccda647Slclee mbp = (struct mboot *)bufp; 15873ccda647Slclee 15883ccda647Slclee /* 15893ccda647Slclee * The fdisk table does not begin on a 4-byte boundary within the 15903ccda647Slclee * master boot record, so we copy it to an aligned structure to avoid 15913ccda647Slclee * alignment exceptions on some processors. 15923ccda647Slclee */ 15933ccda647Slclee bcopy(&mbp->parts[0], fdisk, sizeof (fdisk)); 15943ccda647Slclee 15953ccda647Slclee /* 15963ccda647Slclee * Check for lba support before verifying sig; sig might not be 15973ccda647Slclee * there, say on a blank disk, but the max_chs mark may still 15983ccda647Slclee * be present. 15993ccda647Slclee * 16003ccda647Slclee * Note: LBA support and BEFs are an x86-only concept but this 16013ccda647Slclee * code should work OK on SPARC as well. 16023ccda647Slclee */ 16033ccda647Slclee 16043ccda647Slclee /* 16053ccda647Slclee * First, check for lba-access-ok on root node (or prom root node) 16063ccda647Slclee * if present there, don't need to search fdisk table. 16073ccda647Slclee */ 16083ccda647Slclee if (ddi_getprop(DDI_DEV_T_ANY, ddi_root_node(), 0, 16093ccda647Slclee "lba-access-ok", 0) != 0) { 16103ccda647Slclee /* All drives do LBA; don't search fdisk table */ 16113ccda647Slclee lba = 1; 16123ccda647Slclee } else { 16133ccda647Slclee /* Okay, look for mark in fdisk table */ 16143ccda647Slclee for (fdp = fdisk, i = 0; i < FD_NUMPART; i++, fdp++) { 16153ccda647Slclee /* accumulate "lba" value from all partitions */ 16163ccda647Slclee lba = (lba || cmlb_has_max_chs_vals(fdp)); 16173ccda647Slclee } 16183ccda647Slclee } 16193ccda647Slclee 16203ccda647Slclee /* 16213ccda647Slclee * Next, look for 'no-bef-lba-access' prop on parent. 16223ccda647Slclee * Its presence means the realmode driver doesn't support 16233ccda647Slclee * LBA, so the target driver shouldn't advertise it as ok. 16243ccda647Slclee * This should be a temporary condition; one day all 16253ccda647Slclee * BEFs should support the LBA access functions. 16263ccda647Slclee */ 16273ccda647Slclee if ((lba != 0) && (ddi_getprop(DDI_DEV_T_ANY, 16283ccda647Slclee ddi_get_parent(CMLB_DEVINFO(un)), DDI_PROP_DONTPASS, 16293ccda647Slclee "no-bef-lba-access", 0) != 0)) { 16303ccda647Slclee /* BEF doesn't support LBA; don't advertise it as ok */ 16313ccda647Slclee lba = 0; 16323ccda647Slclee } 16333ccda647Slclee 16343ccda647Slclee if (lba != 0) { 16353ccda647Slclee dev_t dev = cmlb_make_device(un); 16363ccda647Slclee 16373ccda647Slclee if (ddi_getprop(dev, CMLB_DEVINFO(un), DDI_PROP_DONTPASS, 16383ccda647Slclee "lba-access-ok", 0) == 0) { 16393ccda647Slclee /* not found; create it */ 16403ccda647Slclee if (ddi_prop_create(dev, CMLB_DEVINFO(un), 0, 16413ccda647Slclee "lba-access-ok", (caddr_t)NULL, 0) != 16423ccda647Slclee DDI_PROP_SUCCESS) { 16433ccda647Slclee cmlb_dbg(CMLB_ERROR, un, 16443ccda647Slclee "cmlb_read_fdisk: Can't create lba " 16453ccda647Slclee "property for instance %d\n", 16463ccda647Slclee ddi_get_instance(CMLB_DEVINFO(un))); 16473ccda647Slclee } 16483ccda647Slclee } 16493ccda647Slclee } 16503ccda647Slclee 16513ccda647Slclee bcopy(&mbp->signature, sigbuf, sizeof (sigbuf)); 16523ccda647Slclee 16533ccda647Slclee /* 16543ccda647Slclee * Endian-independent signature check 16553ccda647Slclee */ 16563ccda647Slclee if (((sigbuf[1] & 0xFF) != ((MBB_MAGIC >> 8) & 0xFF)) || 16573ccda647Slclee (sigbuf[0] != (MBB_MAGIC & 0xFF))) { 16583ccda647Slclee cmlb_dbg(CMLB_ERROR, un, 16593ccda647Slclee "cmlb_read_fdisk: no fdisk\n"); 16603ccda647Slclee bzero(un->un_fmap, sizeof (struct fmap) * FD_NUMPART); 16613ccda647Slclee goto done; 16623ccda647Slclee } 16633ccda647Slclee 16643ccda647Slclee #ifdef CMLBDEBUG 16653ccda647Slclee if (cmlb_level_mask & SD_LOGMASK_INFO) { 16663ccda647Slclee fdp = fdisk; 16673ccda647Slclee cmlb_dbg(CMLB_INFO, un, "cmlb_read_fdisk:\n"); 16683ccda647Slclee cmlb_dbg(CMLB_INFO, un, " relsect " 16693ccda647Slclee "numsect sysid bootid\n"); 16703ccda647Slclee for (i = 0; i < FD_NUMPART; i++, fdp++) { 16713ccda647Slclee cmlb_dbg(CMLB_INFO, un, 16723ccda647Slclee " %d: %8d %8d 0x%08x 0x%08x\n", 16733ccda647Slclee i, fdp->relsect, fdp->numsect, 16743ccda647Slclee fdp->systid, fdp->bootid); 16753ccda647Slclee } 16763ccda647Slclee } 16773ccda647Slclee #endif 16783ccda647Slclee 16793ccda647Slclee /* 16803ccda647Slclee * Try to find the unix partition 16813ccda647Slclee */ 16823ccda647Slclee uidx = -1; 16833ccda647Slclee solaris_offset = 0; 16843ccda647Slclee solaris_size = 0; 16853ccda647Slclee 16863ccda647Slclee for (fdp = fdisk, i = 0; i < FD_NUMPART; i++, fdp++) { 16873ccda647Slclee int relsect; 16883ccda647Slclee int numsect; 16893ccda647Slclee 16903ccda647Slclee if (fdp->numsect == 0) { 16913ccda647Slclee un->un_fmap[i].fmap_start = 0; 16923ccda647Slclee un->un_fmap[i].fmap_nblk = 0; 16933ccda647Slclee continue; 16943ccda647Slclee } 16953ccda647Slclee 16963ccda647Slclee /* 16973ccda647Slclee * Data in the fdisk table is little-endian. 16983ccda647Slclee */ 16993ccda647Slclee relsect = LE_32(fdp->relsect); 17003ccda647Slclee numsect = LE_32(fdp->numsect); 17013ccda647Slclee 17023ccda647Slclee un->un_fmap[i].fmap_start = relsect; 17033ccda647Slclee un->un_fmap[i].fmap_nblk = numsect; 17043ccda647Slclee 17053ccda647Slclee if (fdp->systid != SUNIXOS && 17063ccda647Slclee fdp->systid != SUNIXOS2 && 17073ccda647Slclee fdp->systid != EFI_PMBR) { 17083ccda647Slclee continue; 17093ccda647Slclee } 17103ccda647Slclee 17113ccda647Slclee /* 17123ccda647Slclee * use the last active solaris partition id found 17133ccda647Slclee * (there should only be 1 active partition id) 17143ccda647Slclee * 17153ccda647Slclee * if there are no active solaris partition id 17163ccda647Slclee * then use the first inactive solaris partition id 17173ccda647Slclee */ 17183ccda647Slclee if ((uidx == -1) || (fdp->bootid == ACTIVE)) { 17193ccda647Slclee uidx = i; 17203ccda647Slclee solaris_offset = relsect; 17213ccda647Slclee solaris_size = numsect; 17223ccda647Slclee } 17233ccda647Slclee } 17243ccda647Slclee 17253ccda647Slclee cmlb_dbg(CMLB_INFO, un, "fdisk 0x%x 0x%lx", 17263ccda647Slclee un->un_solaris_offset, un->un_solaris_size); 17273ccda647Slclee done: 17283ccda647Slclee 17293ccda647Slclee /* 17303ccda647Slclee * Clear the VTOC info, only if the Solaris partition entry 17313ccda647Slclee * has moved, changed size, been deleted, or if the size of 17323ccda647Slclee * the partition is too small to even fit the label sector. 17333ccda647Slclee */ 17343ccda647Slclee if ((un->un_solaris_offset != solaris_offset) || 17353ccda647Slclee (un->un_solaris_size != solaris_size) || 17363ccda647Slclee solaris_size <= DK_LABEL_LOC) { 17373ccda647Slclee cmlb_dbg(CMLB_INFO, un, "fdisk moved 0x%x 0x%lx", 17383ccda647Slclee solaris_offset, solaris_size); 17393ccda647Slclee bzero(&un->un_g, sizeof (struct dk_geom)); 17403ccda647Slclee bzero(&un->un_vtoc, sizeof (struct dk_vtoc)); 17413ccda647Slclee bzero(&un->un_map, NDKMAP * (sizeof (struct dk_map))); 17423ccda647Slclee un->un_f_geometry_is_valid = FALSE; 17433ccda647Slclee } 17443ccda647Slclee un->un_solaris_offset = solaris_offset; 17453ccda647Slclee un->un_solaris_size = solaris_size; 17463ccda647Slclee kmem_free(bufp, blocksize); 17473ccda647Slclee return (rval); 17483ccda647Slclee 17493ccda647Slclee #else /* #elif defined(_FIRMWARE_NEEDS_FDISK) */ 17503ccda647Slclee #error "fdisk table presence undetermined for this platform." 17513ccda647Slclee #endif /* #if defined(_NO_FDISK_PRESENT) */ 17523ccda647Slclee } 17533ccda647Slclee 17543ccda647Slclee static void 17553ccda647Slclee cmlb_swap_efi_gpt(efi_gpt_t *e) 17563ccda647Slclee { 17573ccda647Slclee _NOTE(ASSUMING_PROTECTED(*e)) 17583ccda647Slclee e->efi_gpt_Signature = LE_64(e->efi_gpt_Signature); 17593ccda647Slclee e->efi_gpt_Revision = LE_32(e->efi_gpt_Revision); 17603ccda647Slclee e->efi_gpt_HeaderSize = LE_32(e->efi_gpt_HeaderSize); 17613ccda647Slclee e->efi_gpt_HeaderCRC32 = LE_32(e->efi_gpt_HeaderCRC32); 17623ccda647Slclee e->efi_gpt_MyLBA = LE_64(e->efi_gpt_MyLBA); 17633ccda647Slclee e->efi_gpt_AlternateLBA = LE_64(e->efi_gpt_AlternateLBA); 17643ccda647Slclee e->efi_gpt_FirstUsableLBA = LE_64(e->efi_gpt_FirstUsableLBA); 17653ccda647Slclee e->efi_gpt_LastUsableLBA = LE_64(e->efi_gpt_LastUsableLBA); 17663ccda647Slclee UUID_LE_CONVERT(e->efi_gpt_DiskGUID, e->efi_gpt_DiskGUID); 17673ccda647Slclee e->efi_gpt_PartitionEntryLBA = LE_64(e->efi_gpt_PartitionEntryLBA); 17683ccda647Slclee e->efi_gpt_NumberOfPartitionEntries = 17693ccda647Slclee LE_32(e->efi_gpt_NumberOfPartitionEntries); 17703ccda647Slclee e->efi_gpt_SizeOfPartitionEntry = 17713ccda647Slclee LE_32(e->efi_gpt_SizeOfPartitionEntry); 17723ccda647Slclee e->efi_gpt_PartitionEntryArrayCRC32 = 17733ccda647Slclee LE_32(e->efi_gpt_PartitionEntryArrayCRC32); 17743ccda647Slclee } 17753ccda647Slclee 17763ccda647Slclee static void 17773ccda647Slclee cmlb_swap_efi_gpe(int nparts, efi_gpe_t *p) 17783ccda647Slclee { 17793ccda647Slclee int i; 17803ccda647Slclee 17813ccda647Slclee _NOTE(ASSUMING_PROTECTED(*p)) 17823ccda647Slclee for (i = 0; i < nparts; i++) { 17833ccda647Slclee UUID_LE_CONVERT(p[i].efi_gpe_PartitionTypeGUID, 17843ccda647Slclee p[i].efi_gpe_PartitionTypeGUID); 17853ccda647Slclee p[i].efi_gpe_StartingLBA = LE_64(p[i].efi_gpe_StartingLBA); 17863ccda647Slclee p[i].efi_gpe_EndingLBA = LE_64(p[i].efi_gpe_EndingLBA); 17873ccda647Slclee /* PartitionAttrs */ 17883ccda647Slclee } 17893ccda647Slclee } 17903ccda647Slclee 17913ccda647Slclee static int 17923ccda647Slclee cmlb_validate_efi(efi_gpt_t *labp) 17933ccda647Slclee { 17943ccda647Slclee if (labp->efi_gpt_Signature != EFI_SIGNATURE) 17953ccda647Slclee return (EINVAL); 17963ccda647Slclee /* at least 96 bytes in this version of the spec. */ 17973ccda647Slclee if (sizeof (efi_gpt_t) - sizeof (labp->efi_gpt_Reserved2) > 17983ccda647Slclee labp->efi_gpt_HeaderSize) 17993ccda647Slclee return (EINVAL); 18003ccda647Slclee /* this should be 128 bytes */ 18013ccda647Slclee if (labp->efi_gpt_SizeOfPartitionEntry != sizeof (efi_gpe_t)) 18023ccda647Slclee return (EINVAL); 18033ccda647Slclee return (0); 18043ccda647Slclee } 18053ccda647Slclee 18063ccda647Slclee static int 18073ccda647Slclee cmlb_use_efi(struct cmlb_lun *un, diskaddr_t capacity) 18083ccda647Slclee { 18093ccda647Slclee int i; 18103ccda647Slclee int rval = 0; 18113ccda647Slclee efi_gpe_t *partitions; 18123ccda647Slclee uchar_t *buf; 18133ccda647Slclee uint_t lbasize; /* is really how much to read */ 18143ccda647Slclee diskaddr_t cap; 18153ccda647Slclee uint_t nparts; 18163ccda647Slclee diskaddr_t gpe_lba; 1817*1cec2d8cSshidokht int iofailed = 0; 18183ccda647Slclee 18193ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 18203ccda647Slclee 18213ccda647Slclee lbasize = un->un_sys_blocksize; 18223ccda647Slclee 18233ccda647Slclee buf = kmem_zalloc(EFI_MIN_ARRAY_SIZE, KM_SLEEP); 18243ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 18253ccda647Slclee 18263ccda647Slclee rval = DK_TG_READ(un, buf, 0, lbasize); 18273ccda647Slclee if (rval) { 1828*1cec2d8cSshidokht iofailed = 1; 18293ccda647Slclee goto done_err; 18303ccda647Slclee } 18313ccda647Slclee if (((struct dk_label *)buf)->dkl_magic == DKL_MAGIC) { 18323ccda647Slclee /* not ours */ 18333ccda647Slclee rval = ESRCH; 18343ccda647Slclee goto done_err; 18353ccda647Slclee } 18363ccda647Slclee 18373ccda647Slclee rval = DK_TG_READ(un, buf, 1, lbasize); 18383ccda647Slclee if (rval) { 1839*1cec2d8cSshidokht iofailed = 1; 18403ccda647Slclee goto done_err; 18413ccda647Slclee } 18423ccda647Slclee cmlb_swap_efi_gpt((efi_gpt_t *)buf); 18433ccda647Slclee 18443ccda647Slclee if ((rval = cmlb_validate_efi((efi_gpt_t *)buf)) != 0) { 18453ccda647Slclee /* 18463ccda647Slclee * Couldn't read the primary, try the backup. Our 18473ccda647Slclee * capacity at this point could be based on CHS, so 18483ccda647Slclee * check what the device reports. 18493ccda647Slclee */ 18503ccda647Slclee rval = DK_TG_GETCAP(un, &cap); 18513ccda647Slclee 18523ccda647Slclee if (rval) { 1853*1cec2d8cSshidokht iofailed = 1; 18543ccda647Slclee goto done_err; 18553ccda647Slclee } 18563ccda647Slclee if ((rval = DK_TG_READ(un, buf, cap - 1, lbasize)) != 0) { 1857*1cec2d8cSshidokht iofailed = 1; 18583ccda647Slclee goto done_err; 18593ccda647Slclee } 18603ccda647Slclee cmlb_swap_efi_gpt((efi_gpt_t *)buf); 18613ccda647Slclee if ((rval = cmlb_validate_efi((efi_gpt_t *)buf)) != 0) 18623ccda647Slclee goto done_err; 18633ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_WARN, 18643ccda647Slclee "primary label corrupt; using backup\n"); 18653ccda647Slclee } 18663ccda647Slclee 18673ccda647Slclee nparts = ((efi_gpt_t *)buf)->efi_gpt_NumberOfPartitionEntries; 18683ccda647Slclee gpe_lba = ((efi_gpt_t *)buf)->efi_gpt_PartitionEntryLBA; 18693ccda647Slclee 18703ccda647Slclee rval = DK_TG_READ(un, buf, gpe_lba, EFI_MIN_ARRAY_SIZE); 18713ccda647Slclee if (rval) { 1872*1cec2d8cSshidokht iofailed = 1; 18733ccda647Slclee goto done_err; 18743ccda647Slclee } 18753ccda647Slclee partitions = (efi_gpe_t *)buf; 18763ccda647Slclee 18773ccda647Slclee if (nparts > MAXPART) { 18783ccda647Slclee nparts = MAXPART; 18793ccda647Slclee } 18803ccda647Slclee cmlb_swap_efi_gpe(nparts, partitions); 18813ccda647Slclee 18823ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 18833ccda647Slclee 18843ccda647Slclee /* Fill in partition table. */ 18853ccda647Slclee for (i = 0; i < nparts; i++) { 18863ccda647Slclee if (partitions->efi_gpe_StartingLBA != 0 || 18873ccda647Slclee partitions->efi_gpe_EndingLBA != 0) { 18883ccda647Slclee un->un_map[i].dkl_cylno = 18893ccda647Slclee partitions->efi_gpe_StartingLBA; 18903ccda647Slclee un->un_map[i].dkl_nblk = 18913ccda647Slclee partitions->efi_gpe_EndingLBA - 18923ccda647Slclee partitions->efi_gpe_StartingLBA + 1; 18933ccda647Slclee un->un_offset[i] = 18943ccda647Slclee partitions->efi_gpe_StartingLBA; 18953ccda647Slclee } 18963ccda647Slclee if (i == WD_NODE) { 18973ccda647Slclee /* 18983ccda647Slclee * minor number 7 corresponds to the whole disk 18993ccda647Slclee */ 19003ccda647Slclee un->un_map[i].dkl_cylno = 0; 19013ccda647Slclee un->un_map[i].dkl_nblk = capacity; 19023ccda647Slclee un->un_offset[i] = 0; 19033ccda647Slclee } 19043ccda647Slclee partitions++; 19053ccda647Slclee } 19063ccda647Slclee un->un_solaris_offset = 0; 19073ccda647Slclee un->un_solaris_size = capacity; 19083ccda647Slclee un->un_f_geometry_is_valid = TRUE; 19093ccda647Slclee kmem_free(buf, EFI_MIN_ARRAY_SIZE); 19103ccda647Slclee return (0); 19113ccda647Slclee 19123ccda647Slclee done_err: 19133ccda647Slclee kmem_free(buf, EFI_MIN_ARRAY_SIZE); 19143ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 19153ccda647Slclee /* 19163ccda647Slclee * if we didn't find something that could look like a VTOC 19173ccda647Slclee * and the disk is over 1TB, we know there isn't a valid label. 19183ccda647Slclee * Otherwise let cmlb_uselabel decide what to do. We only 19193ccda647Slclee * want to invalidate this if we're certain the label isn't 19203ccda647Slclee * valid because cmlb_prop_op will now fail, which in turn 19213ccda647Slclee * causes things like opens and stats on the partition to fail. 19223ccda647Slclee */ 1923*1cec2d8cSshidokht if ((capacity > DK_MAX_BLOCKS) && (rval != ESRCH) && !iofailed) { 19243ccda647Slclee un->un_f_geometry_is_valid = FALSE; 19253ccda647Slclee } 19263ccda647Slclee return (rval); 19273ccda647Slclee } 19283ccda647Slclee 19293ccda647Slclee 19303ccda647Slclee /* 19313ccda647Slclee * Function: cmlb_uselabel 19323ccda647Slclee * 19333ccda647Slclee * Description: Validate the disk label and update the relevant data (geometry, 19343ccda647Slclee * partition, vtoc, and capacity data) in the cmlb_lun struct. 19353ccda647Slclee * Marks the geometry of the unit as being valid. 19363ccda647Slclee * 19373ccda647Slclee * Arguments: un: unit struct. 19383ccda647Slclee * dk_label: disk label 19393ccda647Slclee * 19403ccda647Slclee * Return Code: CMLB_LABEL_IS_VALID: Label read from disk is OK; geometry, 19413ccda647Slclee * partition, vtoc, and capacity data are good. 19423ccda647Slclee * 19433ccda647Slclee * CMLB_LABEL_IS_INVALID: Magic number or checksum error in the 19443ccda647Slclee * label; or computed capacity does not jibe with capacity 19453ccda647Slclee * reported from the READ CAPACITY command. 19463ccda647Slclee * 19473ccda647Slclee * Context: Kernel thread only (can sleep). 19483ccda647Slclee */ 19493ccda647Slclee static int 19503ccda647Slclee cmlb_uselabel(struct cmlb_lun *un, struct dk_label *labp) 19513ccda647Slclee { 19523ccda647Slclee short *sp; 19533ccda647Slclee short sum; 19543ccda647Slclee short count; 19553ccda647Slclee int label_error = CMLB_LABEL_IS_VALID; 19563ccda647Slclee int i; 19573ccda647Slclee diskaddr_t label_capacity; 19583ccda647Slclee int part_end; 19593ccda647Slclee diskaddr_t track_capacity; 19603ccda647Slclee #if defined(_SUNOS_VTOC_16) 19613ccda647Slclee struct dkl_partition *vpartp; 19623ccda647Slclee #endif 19633ccda647Slclee ASSERT(un != NULL); 19643ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 19653ccda647Slclee 19663ccda647Slclee /* Validate the magic number of the label. */ 19673ccda647Slclee if (labp->dkl_magic != DKL_MAGIC) { 19683ccda647Slclee #if defined(__sparc) 19693ccda647Slclee if (!ISREMOVABLE(un)) { 19703ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_WARN, 19713ccda647Slclee "Corrupt label; wrong magic number\n"); 19723ccda647Slclee } 19733ccda647Slclee #endif 19743ccda647Slclee return (CMLB_LABEL_IS_INVALID); 19753ccda647Slclee } 19763ccda647Slclee 19773ccda647Slclee /* Validate the checksum of the label. */ 19783ccda647Slclee sp = (short *)labp; 19793ccda647Slclee sum = 0; 19803ccda647Slclee count = sizeof (struct dk_label) / sizeof (short); 19813ccda647Slclee while (count--) { 19823ccda647Slclee sum ^= *sp++; 19833ccda647Slclee } 19843ccda647Slclee 19853ccda647Slclee if (sum != 0) { 19863ccda647Slclee #if defined(_SUNOS_VTOC_16) 19873ccda647Slclee if (!ISCD(un)) { 19883ccda647Slclee #elif defined(_SUNOS_VTOC_8) 19893ccda647Slclee if (!ISREMOVABLE(un)) { 19903ccda647Slclee #endif 19913ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_WARN, 19923ccda647Slclee "Corrupt label - label checksum failed\n"); 19933ccda647Slclee } 19943ccda647Slclee return (CMLB_LABEL_IS_INVALID); 19953ccda647Slclee } 19963ccda647Slclee 19973ccda647Slclee 19983ccda647Slclee /* 19993ccda647Slclee * Fill in geometry structure with data from label. 20003ccda647Slclee */ 20013ccda647Slclee bzero(&un->un_g, sizeof (struct dk_geom)); 20023ccda647Slclee un->un_g.dkg_ncyl = labp->dkl_ncyl; 20033ccda647Slclee un->un_g.dkg_acyl = labp->dkl_acyl; 20043ccda647Slclee un->un_g.dkg_bcyl = 0; 20053ccda647Slclee un->un_g.dkg_nhead = labp->dkl_nhead; 20063ccda647Slclee un->un_g.dkg_nsect = labp->dkl_nsect; 20073ccda647Slclee un->un_g.dkg_intrlv = labp->dkl_intrlv; 20083ccda647Slclee 20093ccda647Slclee #if defined(_SUNOS_VTOC_8) 20103ccda647Slclee un->un_g.dkg_gap1 = labp->dkl_gap1; 20113ccda647Slclee un->un_g.dkg_gap2 = labp->dkl_gap2; 20123ccda647Slclee un->un_g.dkg_bhead = labp->dkl_bhead; 20133ccda647Slclee #endif 20143ccda647Slclee #if defined(_SUNOS_VTOC_16) 20153ccda647Slclee un->un_dkg_skew = labp->dkl_skew; 20163ccda647Slclee #endif 20173ccda647Slclee 20183ccda647Slclee #if defined(__i386) || defined(__amd64) 20193ccda647Slclee un->un_g.dkg_apc = labp->dkl_apc; 20203ccda647Slclee #endif 20213ccda647Slclee 20223ccda647Slclee /* 20233ccda647Slclee * Currently we rely on the values in the label being accurate. If 20243ccda647Slclee * dkl_rpm or dkl_pcly are zero in the label, use a default value. 20253ccda647Slclee * 20263ccda647Slclee * Note: In the future a MODE SENSE may be used to retrieve this data, 20273ccda647Slclee * although this command is optional in SCSI-2. 20283ccda647Slclee */ 20293ccda647Slclee un->un_g.dkg_rpm = (labp->dkl_rpm != 0) ? labp->dkl_rpm : 3600; 20303ccda647Slclee un->un_g.dkg_pcyl = (labp->dkl_pcyl != 0) ? labp->dkl_pcyl : 20313ccda647Slclee (un->un_g.dkg_ncyl + un->un_g.dkg_acyl); 20323ccda647Slclee 20333ccda647Slclee /* 20343ccda647Slclee * The Read and Write reinstruct values may not be valid 20353ccda647Slclee * for older disks. 20363ccda647Slclee */ 20373ccda647Slclee un->un_g.dkg_read_reinstruct = labp->dkl_read_reinstruct; 20383ccda647Slclee un->un_g.dkg_write_reinstruct = labp->dkl_write_reinstruct; 20393ccda647Slclee 20403ccda647Slclee /* Fill in partition table. */ 20413ccda647Slclee #if defined(_SUNOS_VTOC_8) 20423ccda647Slclee for (i = 0; i < NDKMAP; i++) { 20433ccda647Slclee un->un_map[i].dkl_cylno = labp->dkl_map[i].dkl_cylno; 20443ccda647Slclee un->un_map[i].dkl_nblk = labp->dkl_map[i].dkl_nblk; 20453ccda647Slclee } 20463ccda647Slclee #endif 20473ccda647Slclee #if defined(_SUNOS_VTOC_16) 20483ccda647Slclee vpartp = labp->dkl_vtoc.v_part; 20493ccda647Slclee track_capacity = labp->dkl_nhead * labp->dkl_nsect; 20503ccda647Slclee 20513ccda647Slclee for (i = 0; i < NDKMAP; i++, vpartp++) { 20523ccda647Slclee un->un_map[i].dkl_cylno = vpartp->p_start / track_capacity; 20533ccda647Slclee un->un_map[i].dkl_nblk = vpartp->p_size; 20543ccda647Slclee } 20553ccda647Slclee #endif 20563ccda647Slclee 20573ccda647Slclee /* Fill in VTOC Structure. */ 20583ccda647Slclee bcopy(&labp->dkl_vtoc, &un->un_vtoc, sizeof (struct dk_vtoc)); 20593ccda647Slclee #if defined(_SUNOS_VTOC_8) 20603ccda647Slclee /* 20613ccda647Slclee * The 8-slice vtoc does not include the ascii label; save it into 20623ccda647Slclee * the device's soft state structure here. 20633ccda647Slclee */ 20643ccda647Slclee bcopy(labp->dkl_asciilabel, un->un_asciilabel, LEN_DKL_ASCII); 20653ccda647Slclee #endif 20663ccda647Slclee 20673ccda647Slclee /* Mark the geometry as valid. */ 20683ccda647Slclee un->un_f_geometry_is_valid = TRUE; 20693ccda647Slclee 20703ccda647Slclee /* Now look for a valid capacity. */ 20713ccda647Slclee track_capacity = (un->un_g.dkg_nhead * un->un_g.dkg_nsect); 20723ccda647Slclee label_capacity = (un->un_g.dkg_ncyl * track_capacity); 20733ccda647Slclee 20743ccda647Slclee if (un->un_g.dkg_acyl) { 20753ccda647Slclee #if defined(__i386) || defined(__amd64) 20763ccda647Slclee /* we may have > 1 alts cylinder */ 20773ccda647Slclee label_capacity += (track_capacity * un->un_g.dkg_acyl); 20783ccda647Slclee #else 20793ccda647Slclee label_capacity += track_capacity; 20803ccda647Slclee #endif 20813ccda647Slclee } 20823ccda647Slclee 20833ccda647Slclee /* 20843ccda647Slclee * if we got invalidated when mutex exit and entered again, 20853ccda647Slclee * if blockcount different than when we came in, need to 20863ccda647Slclee * retry from beginning of cmlb_validate_geometry. 20873ccda647Slclee * revisit this on next phase of utilizing this for 20883ccda647Slclee * sd. 20893ccda647Slclee */ 20903ccda647Slclee 20913ccda647Slclee if (label_capacity <= un->un_blockcount) { 20923ccda647Slclee #if defined(_SUNOS_VTOC_8) 20933ccda647Slclee /* 20943ccda647Slclee * We can't let this happen on drives that are subdivided 20953ccda647Slclee * into logical disks (i.e., that have an fdisk table). 20963ccda647Slclee * The un_blockcount field should always hold the full media 20973ccda647Slclee * size in sectors, period. This code would overwrite 20983ccda647Slclee * un_blockcount with the size of the Solaris fdisk partition. 20993ccda647Slclee */ 21003ccda647Slclee cmlb_dbg(CMLB_ERROR, un, 21013ccda647Slclee "cmlb_uselabel: Label %d blocks; Drive %d blocks\n", 21023ccda647Slclee label_capacity, un->un_blockcount); 21033ccda647Slclee un->un_solaris_size = label_capacity; 21043ccda647Slclee 21053ccda647Slclee #endif /* defined(_SUNOS_VTOC_8) */ 21063ccda647Slclee goto done; 21073ccda647Slclee } 21083ccda647Slclee 21093ccda647Slclee if (ISCD(un)) { 21103ccda647Slclee /* For CDROMs, we trust that the data in the label is OK. */ 21113ccda647Slclee #if defined(_SUNOS_VTOC_8) 21123ccda647Slclee for (i = 0; i < NDKMAP; i++) { 21133ccda647Slclee part_end = labp->dkl_nhead * labp->dkl_nsect * 21143ccda647Slclee labp->dkl_map[i].dkl_cylno + 21153ccda647Slclee labp->dkl_map[i].dkl_nblk - 1; 21163ccda647Slclee 21173ccda647Slclee if ((labp->dkl_map[i].dkl_nblk) && 21183ccda647Slclee (part_end > un->un_blockcount)) { 21193ccda647Slclee un->un_f_geometry_is_valid = FALSE; 21203ccda647Slclee break; 21213ccda647Slclee } 21223ccda647Slclee } 21233ccda647Slclee #endif 21243ccda647Slclee #if defined(_SUNOS_VTOC_16) 21253ccda647Slclee vpartp = &(labp->dkl_vtoc.v_part[0]); 21263ccda647Slclee for (i = 0; i < NDKMAP; i++, vpartp++) { 21273ccda647Slclee part_end = vpartp->p_start + vpartp->p_size; 21283ccda647Slclee if ((vpartp->p_size > 0) && 21293ccda647Slclee (part_end > un->un_blockcount)) { 21303ccda647Slclee un->un_f_geometry_is_valid = FALSE; 21313ccda647Slclee break; 21323ccda647Slclee } 21333ccda647Slclee } 21343ccda647Slclee #endif 21353ccda647Slclee } else { 21363ccda647Slclee /* label_capacity > un->un_blockcount */ 21373ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_WARN, 21383ccda647Slclee "Corrupt label - bad geometry\n"); 21393ccda647Slclee cmlb_log(CMLB_DEVINFO(un), CMLB_LABEL(un), CE_CONT, 21403ccda647Slclee "Label says %llu blocks; Drive says %llu blocks\n", 21413ccda647Slclee label_capacity, un->un_blockcount); 21423ccda647Slclee un->un_f_geometry_is_valid = FALSE; 21433ccda647Slclee label_error = CMLB_LABEL_IS_INVALID; 21443ccda647Slclee } 21453ccda647Slclee 21463ccda647Slclee done: 21473ccda647Slclee 21483ccda647Slclee cmlb_dbg(CMLB_INFO, un, "cmlb_uselabel: (label geometry)\n"); 21493ccda647Slclee cmlb_dbg(CMLB_INFO, un, 21503ccda647Slclee " ncyl: %d; acyl: %d; nhead: %d; nsect: %d\n", 21513ccda647Slclee un->un_g.dkg_ncyl, un->un_g.dkg_acyl, 21523ccda647Slclee un->un_g.dkg_nhead, un->un_g.dkg_nsect); 21533ccda647Slclee 21543ccda647Slclee cmlb_dbg(CMLB_INFO, un, 21553ccda647Slclee " label_capacity: %d; intrlv: %d; rpm: %d\n", 21563ccda647Slclee un->un_blockcount, un->un_g.dkg_intrlv, un->un_g.dkg_rpm); 21573ccda647Slclee cmlb_dbg(CMLB_INFO, un, " wrt_reinstr: %d; rd_reinstr: %d\n", 21583ccda647Slclee un->un_g.dkg_write_reinstruct, un->un_g.dkg_read_reinstruct); 21593ccda647Slclee 21603ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 21613ccda647Slclee 21623ccda647Slclee return (label_error); 21633ccda647Slclee } 21643ccda647Slclee 21653ccda647Slclee 21663ccda647Slclee /* 21673ccda647Slclee * Function: cmlb_build_default_label 21683ccda647Slclee * 21693ccda647Slclee * Description: Generate a default label for those devices that do not have 21703ccda647Slclee * one, e.g., new media, removable cartridges, etc.. 21713ccda647Slclee * 21723ccda647Slclee * Context: Kernel thread only 21733ccda647Slclee */ 21743ccda647Slclee static void 21753ccda647Slclee cmlb_build_default_label(struct cmlb_lun *un) 21763ccda647Slclee { 21773ccda647Slclee #if defined(_SUNOS_VTOC_16) 21783ccda647Slclee uint_t phys_spc; 21793ccda647Slclee uint_t disksize; 21803ccda647Slclee struct dk_geom un_g; 21813ccda647Slclee #endif 21823ccda647Slclee 21833ccda647Slclee ASSERT(un != NULL); 21843ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 21853ccda647Slclee 21863ccda647Slclee #if defined(_SUNOS_VTOC_8) 21873ccda647Slclee /* 21883ccda647Slclee * Note: This is a legacy check for non-removable devices on VTOC_8 21893ccda647Slclee * only. This may be a valid check for VTOC_16 as well. 21903ccda647Slclee */ 21913ccda647Slclee if (!ISREMOVABLE(un)) { 21923ccda647Slclee return; 21933ccda647Slclee } 21943ccda647Slclee #endif 21953ccda647Slclee 21963ccda647Slclee bzero(&un->un_g, sizeof (struct dk_geom)); 21973ccda647Slclee bzero(&un->un_vtoc, sizeof (struct dk_vtoc)); 21983ccda647Slclee bzero(&un->un_map, NDKMAP * (sizeof (struct dk_map))); 21993ccda647Slclee 22003ccda647Slclee #if defined(_SUNOS_VTOC_8) 22013ccda647Slclee 22023ccda647Slclee /* 22033ccda647Slclee * It's a REMOVABLE media, therefore no label (on sparc, anyway). 22043ccda647Slclee * But it is still necessary to set up various geometry information, 22053ccda647Slclee * and we are doing this here. 22063ccda647Slclee */ 22073ccda647Slclee 22083ccda647Slclee /* 22093ccda647Slclee * For the rpm, we use the minimum for the disk. For the head, cyl, 22103ccda647Slclee * and number of sector per track, if the capacity <= 1GB, head = 64, 22113ccda647Slclee * sect = 32. else head = 255, sect 63 Note: the capacity should be 22123ccda647Slclee * equal to C*H*S values. This will cause some truncation of size due 22133ccda647Slclee * to round off errors. For CD-ROMs, this truncation can have adverse 22143ccda647Slclee * side effects, so returning ncyl and nhead as 1. The nsect will 22153ccda647Slclee * overflow for most of CD-ROMs as nsect is of type ushort. (4190569) 22163ccda647Slclee */ 22173ccda647Slclee un->un_solaris_size = un->un_blockcount; 22183ccda647Slclee if (ISCD(un)) { 22193ccda647Slclee tg_attribute_t tgattribute; 22203ccda647Slclee int is_writable; 22213ccda647Slclee /* 22223ccda647Slclee * Preserve the old behavior for non-writable 22233ccda647Slclee * medias. Since dkg_nsect is a ushort, it 22243ccda647Slclee * will lose bits as cdroms have more than 22253ccda647Slclee * 65536 sectors. So if we recalculate 22263ccda647Slclee * capacity, it will become much shorter. 22273ccda647Slclee * But the dkg_* information is not 22283ccda647Slclee * used for CDROMs so it is OK. But for 22293ccda647Slclee * Writable CDs we need this information 22303ccda647Slclee * to be valid (for newfs say). So we 22313ccda647Slclee * make nsect and nhead > 1 that way 22323ccda647Slclee * nsect can still stay within ushort limit 22333ccda647Slclee * without losing any bits. 22343ccda647Slclee */ 22353ccda647Slclee 22363ccda647Slclee bzero(&tgattribute, sizeof (tg_attribute_t)); 22373ccda647Slclee 22383ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 22393ccda647Slclee is_writable = (DK_TG_GETATTRIBUTE(un, &tgattribute) == 0) ? 22403ccda647Slclee tgattribute.media_is_writable : 1; 22413ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 22423ccda647Slclee 22433ccda647Slclee if (is_writable) { 22443ccda647Slclee un->un_g.dkg_nhead = 64; 22453ccda647Slclee un->un_g.dkg_nsect = 32; 22463ccda647Slclee un->un_g.dkg_ncyl = un->un_blockcount / (64 * 32); 22473ccda647Slclee un->un_solaris_size = un->un_g.dkg_ncyl * 22483ccda647Slclee un->un_g.dkg_nhead * un->un_g.dkg_nsect; 22493ccda647Slclee } else { 22503ccda647Slclee un->un_g.dkg_ncyl = 1; 22513ccda647Slclee un->un_g.dkg_nhead = 1; 22523ccda647Slclee un->un_g.dkg_nsect = un->un_blockcount; 22533ccda647Slclee } 22543ccda647Slclee } else { 22553ccda647Slclee if (un->un_blockcount <= 0x1000) { 22563ccda647Slclee /* unlabeled SCSI floppy device */ 22573ccda647Slclee un->un_g.dkg_nhead = 2; 22583ccda647Slclee un->un_g.dkg_ncyl = 80; 22593ccda647Slclee un->un_g.dkg_nsect = un->un_blockcount / (2 * 80); 22603ccda647Slclee } else if (un->un_blockcount <= 0x200000) { 22613ccda647Slclee un->un_g.dkg_nhead = 64; 22623ccda647Slclee un->un_g.dkg_nsect = 32; 22633ccda647Slclee un->un_g.dkg_ncyl = un->un_blockcount / (64 * 32); 22643ccda647Slclee } else { 22653ccda647Slclee un->un_g.dkg_nhead = 255; 22663ccda647Slclee un->un_g.dkg_nsect = 63; 22673ccda647Slclee un->un_g.dkg_ncyl = un->un_blockcount / (255 * 63); 22683ccda647Slclee } 22693ccda647Slclee un->un_solaris_size = 22703ccda647Slclee un->un_g.dkg_ncyl * un->un_g.dkg_nhead * un->un_g.dkg_nsect; 22713ccda647Slclee 22723ccda647Slclee } 22733ccda647Slclee 22743ccda647Slclee un->un_g.dkg_acyl = 0; 22753ccda647Slclee un->un_g.dkg_bcyl = 0; 22763ccda647Slclee un->un_g.dkg_rpm = 200; 22773ccda647Slclee un->un_asciilabel[0] = '\0'; 22783ccda647Slclee un->un_g.dkg_pcyl = un->un_g.dkg_ncyl; 22793ccda647Slclee 22803ccda647Slclee un->un_map[0].dkl_cylno = 0; 22813ccda647Slclee un->un_map[0].dkl_nblk = un->un_solaris_size; 22823ccda647Slclee 22833ccda647Slclee un->un_map[2].dkl_cylno = 0; 22843ccda647Slclee un->un_map[2].dkl_nblk = un->un_solaris_size; 22853ccda647Slclee 22863ccda647Slclee #elif defined(_SUNOS_VTOC_16) 22873ccda647Slclee 22883ccda647Slclee if (un->un_solaris_size == 0) { 22893ccda647Slclee /* 22903ccda647Slclee * Got fdisk table but no solaris entry therefore 22913ccda647Slclee * don't create a default label 22923ccda647Slclee */ 22933ccda647Slclee un->un_f_geometry_is_valid = TRUE; 22943ccda647Slclee return; 22953ccda647Slclee } 22963ccda647Slclee 22973ccda647Slclee /* 22983ccda647Slclee * For CDs we continue to use the physical geometry to calculate 22993ccda647Slclee * number of cylinders. All other devices must convert the 23003ccda647Slclee * physical geometry (cmlb_geom) to values that will fit 23013ccda647Slclee * in a dk_geom structure. 23023ccda647Slclee */ 23033ccda647Slclee if (ISCD(un)) { 23043ccda647Slclee phys_spc = un->un_pgeom.g_nhead * un->un_pgeom.g_nsect; 23053ccda647Slclee } else { 23063ccda647Slclee /* Convert physical geometry to disk geometry */ 23073ccda647Slclee bzero(&un_g, sizeof (struct dk_geom)); 23083ccda647Slclee cmlb_convert_geometry(un->un_blockcount, &un_g); 23093ccda647Slclee bcopy(&un_g, &un->un_g, sizeof (un->un_g)); 23103ccda647Slclee phys_spc = un->un_g.dkg_nhead * un->un_g.dkg_nsect; 23113ccda647Slclee } 23123ccda647Slclee 23133ccda647Slclee un->un_g.dkg_pcyl = un->un_solaris_size / phys_spc; 23143ccda647Slclee un->un_g.dkg_acyl = DK_ACYL; 23153ccda647Slclee un->un_g.dkg_ncyl = un->un_g.dkg_pcyl - DK_ACYL; 23163ccda647Slclee disksize = un->un_g.dkg_ncyl * phys_spc; 23173ccda647Slclee 23183ccda647Slclee if (ISCD(un)) { 23193ccda647Slclee /* 23203ccda647Slclee * CD's don't use the "heads * sectors * cyls"-type of 23213ccda647Slclee * geometry, but instead use the entire capacity of the media. 23223ccda647Slclee */ 23233ccda647Slclee disksize = un->un_solaris_size; 23243ccda647Slclee un->un_g.dkg_nhead = 1; 23253ccda647Slclee un->un_g.dkg_nsect = 1; 23263ccda647Slclee un->un_g.dkg_rpm = 23273ccda647Slclee (un->un_pgeom.g_rpm == 0) ? 200 : un->un_pgeom.g_rpm; 23283ccda647Slclee 23293ccda647Slclee un->un_vtoc.v_part[0].p_start = 0; 23303ccda647Slclee un->un_vtoc.v_part[0].p_size = disksize; 23313ccda647Slclee un->un_vtoc.v_part[0].p_tag = V_BACKUP; 23323ccda647Slclee un->un_vtoc.v_part[0].p_flag = V_UNMNT; 23333ccda647Slclee 23343ccda647Slclee un->un_map[0].dkl_cylno = 0; 23353ccda647Slclee un->un_map[0].dkl_nblk = disksize; 23363ccda647Slclee un->un_offset[0] = 0; 23373ccda647Slclee 23383ccda647Slclee } else { 23393ccda647Slclee /* 23403ccda647Slclee * Hard disks and removable media cartridges 23413ccda647Slclee */ 23423ccda647Slclee un->un_g.dkg_rpm = 23433ccda647Slclee (un->un_pgeom.g_rpm == 0) ? 3600: un->un_pgeom.g_rpm; 23443ccda647Slclee un->un_vtoc.v_sectorsz = un->un_sys_blocksize; 23453ccda647Slclee 23463ccda647Slclee /* Add boot slice */ 23473ccda647Slclee un->un_vtoc.v_part[8].p_start = 0; 23483ccda647Slclee un->un_vtoc.v_part[8].p_size = phys_spc; 23493ccda647Slclee un->un_vtoc.v_part[8].p_tag = V_BOOT; 23503ccda647Slclee un->un_vtoc.v_part[8].p_flag = V_UNMNT; 23513ccda647Slclee 23523ccda647Slclee un->un_map[8].dkl_cylno = 0; 23533ccda647Slclee un->un_map[8].dkl_nblk = phys_spc; 23543ccda647Slclee un->un_offset[8] = 0; 23553ccda647Slclee 23563ccda647Slclee if ((un->un_alter_behavior & 23573ccda647Slclee CMLB_CREATE_ALTSLICE_VTOC_16_DTYPE_DIRECT) && 23583ccda647Slclee un->un_device_type == DTYPE_DIRECT) { 23593ccda647Slclee un->un_vtoc.v_part[9].p_start = phys_spc; 23603ccda647Slclee un->un_vtoc.v_part[9].p_size = 2 * phys_spc; 23613ccda647Slclee un->un_vtoc.v_part[9].p_tag = V_ALTSCTR; 23623ccda647Slclee un->un_vtoc.v_part[9].p_flag = 0; 23633ccda647Slclee 23643ccda647Slclee un->un_map[9].dkl_cylno = 1; 23653ccda647Slclee un->un_map[9].dkl_nblk = 2 * phys_spc; 23663ccda647Slclee un->un_offset[9] = phys_spc; 23673ccda647Slclee } 23683ccda647Slclee } 23693ccda647Slclee 23703ccda647Slclee un->un_g.dkg_apc = 0; 23713ccda647Slclee un->un_vtoc.v_nparts = V_NUMPAR; 23723ccda647Slclee un->un_vtoc.v_version = V_VERSION; 23733ccda647Slclee 23743ccda647Slclee /* Add backup slice */ 23753ccda647Slclee un->un_vtoc.v_part[2].p_start = 0; 23763ccda647Slclee un->un_vtoc.v_part[2].p_size = disksize; 23773ccda647Slclee un->un_vtoc.v_part[2].p_tag = V_BACKUP; 23783ccda647Slclee un->un_vtoc.v_part[2].p_flag = V_UNMNT; 23793ccda647Slclee 23803ccda647Slclee un->un_map[2].dkl_cylno = 0; 23813ccda647Slclee un->un_map[2].dkl_nblk = disksize; 23823ccda647Slclee un->un_offset[2] = 0; 23833ccda647Slclee 23843ccda647Slclee (void) sprintf(un->un_vtoc.v_asciilabel, "DEFAULT cyl %d alt %d" 23853ccda647Slclee " hd %d sec %d", un->un_g.dkg_ncyl, un->un_g.dkg_acyl, 23863ccda647Slclee un->un_g.dkg_nhead, un->un_g.dkg_nsect); 23873ccda647Slclee 23883ccda647Slclee #else 23893ccda647Slclee #error "No VTOC format defined." 23903ccda647Slclee #endif 23913ccda647Slclee 23923ccda647Slclee un->un_g.dkg_read_reinstruct = 0; 23933ccda647Slclee un->un_g.dkg_write_reinstruct = 0; 23943ccda647Slclee 23953ccda647Slclee un->un_g.dkg_intrlv = 1; 23963ccda647Slclee 23973ccda647Slclee un->un_vtoc.v_sanity = VTOC_SANE; 23983ccda647Slclee 23993ccda647Slclee un->un_f_geometry_is_valid = TRUE; 24003ccda647Slclee un->un_vtoc_label_is_from_media = 0; 24013ccda647Slclee 24023ccda647Slclee cmlb_dbg(CMLB_INFO, un, 24033ccda647Slclee "cmlb_build_default_label: Default label created: " 24043ccda647Slclee "cyl: %d\tacyl: %d\tnhead: %d\tnsect: %d\tcap: %d\n", 24053ccda647Slclee un->un_g.dkg_ncyl, un->un_g.dkg_acyl, un->un_g.dkg_nhead, 24063ccda647Slclee un->un_g.dkg_nsect, un->un_blockcount); 24073ccda647Slclee } 24083ccda647Slclee 24093ccda647Slclee 24103ccda647Slclee #if defined(_FIRMWARE_NEEDS_FDISK) 24113ccda647Slclee /* 24123ccda647Slclee * Max CHS values, as they are encoded into bytes, for 1022/254/63 24133ccda647Slclee */ 24143ccda647Slclee #define LBA_MAX_SECT (63 | ((1022 & 0x300) >> 2)) 24153ccda647Slclee #define LBA_MAX_CYL (1022 & 0xFF) 24163ccda647Slclee #define LBA_MAX_HEAD (254) 24173ccda647Slclee 24183ccda647Slclee 24193ccda647Slclee /* 24203ccda647Slclee * Function: cmlb_has_max_chs_vals 24213ccda647Slclee * 24223ccda647Slclee * Description: Return TRUE if Cylinder-Head-Sector values are all at maximum. 24233ccda647Slclee * 24243ccda647Slclee * Arguments: fdp - ptr to CHS info 24253ccda647Slclee * 24263ccda647Slclee * Return Code: True or false 24273ccda647Slclee * 24283ccda647Slclee * Context: Any. 24293ccda647Slclee */ 24303ccda647Slclee static int 24313ccda647Slclee cmlb_has_max_chs_vals(struct ipart *fdp) 24323ccda647Slclee { 24333ccda647Slclee return ((fdp->begcyl == LBA_MAX_CYL) && 24343ccda647Slclee (fdp->beghead == LBA_MAX_HEAD) && 24353ccda647Slclee (fdp->begsect == LBA_MAX_SECT) && 24363ccda647Slclee (fdp->endcyl == LBA_MAX_CYL) && 24373ccda647Slclee (fdp->endhead == LBA_MAX_HEAD) && 24383ccda647Slclee (fdp->endsect == LBA_MAX_SECT)); 24393ccda647Slclee } 24403ccda647Slclee #endif 24413ccda647Slclee 24423ccda647Slclee /* 24433ccda647Slclee * Function: cmlb_dkio_get_geometry 24443ccda647Slclee * 24453ccda647Slclee * Description: This routine is the driver entry point for handling user 24463ccda647Slclee * requests to get the device geometry (DKIOCGGEOM). 24473ccda647Slclee * 24483ccda647Slclee * Arguments: 24493ccda647Slclee * arg - pointer to user provided dk_geom structure specifying 24503ccda647Slclee * the controller's notion of the current geometry. 24513ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 24523ccda647Slclee * directly from the mode argument of ioctl(). 24533ccda647Slclee * 24543ccda647Slclee * Return Code: 0 24553ccda647Slclee * EFAULT 24563ccda647Slclee * ENXIO 24573ccda647Slclee * EIO 24583ccda647Slclee */ 24593ccda647Slclee static int 24603ccda647Slclee cmlb_dkio_get_geometry(struct cmlb_lun *un, caddr_t arg, int flag) 24613ccda647Slclee { 24623ccda647Slclee struct dk_geom *tmp_geom = NULL; 24633ccda647Slclee int rval = 0; 24643ccda647Slclee 24653ccda647Slclee /* 24663ccda647Slclee * cmlb_validate_geometry does not spin a disk up 24673ccda647Slclee * if it was spun down. We need to make sure it 24683ccda647Slclee * is ready. 24693ccda647Slclee */ 24703ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 24713ccda647Slclee rval = cmlb_validate_geometry(un, 1); 24723ccda647Slclee #if defined(_SUNOS_VTOC_8) 24733ccda647Slclee if (rval == EINVAL && 24743ccda647Slclee un->un_alter_behavior & CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8) { 24753ccda647Slclee /* 24763ccda647Slclee * This is to return a default label geometry even when we 24773ccda647Slclee * do not really assume a default label for the device. 24783ccda647Slclee * dad driver utilizes this. 24793ccda647Slclee */ 24803ccda647Slclee if (un->un_blockcount <= DK_MAX_BLOCKS) { 24813ccda647Slclee cmlb_setup_default_geometry(un); 24823ccda647Slclee rval = 0; 24833ccda647Slclee } 24843ccda647Slclee } 24853ccda647Slclee #endif 24863ccda647Slclee if (rval) { 24873ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 24883ccda647Slclee return (rval); 24893ccda647Slclee } 24903ccda647Slclee 24913ccda647Slclee #if defined(__i386) || defined(__amd64) 24923ccda647Slclee if (un->un_solaris_size == 0) { 24933ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 24943ccda647Slclee return (EIO); 24953ccda647Slclee } 24963ccda647Slclee #endif 24973ccda647Slclee 24983ccda647Slclee /* 24993ccda647Slclee * Make a local copy of the soft state geometry to avoid some potential 25003ccda647Slclee * race conditions associated with holding the mutex and updating the 25013ccda647Slclee * write_reinstruct value 25023ccda647Slclee */ 25033ccda647Slclee tmp_geom = kmem_zalloc(sizeof (struct dk_geom), KM_SLEEP); 25043ccda647Slclee bcopy(&un->un_g, tmp_geom, sizeof (struct dk_geom)); 25053ccda647Slclee 25063ccda647Slclee if (tmp_geom->dkg_write_reinstruct == 0) { 25073ccda647Slclee tmp_geom->dkg_write_reinstruct = 25083ccda647Slclee (int)((int)(tmp_geom->dkg_nsect * tmp_geom->dkg_rpm * 25093ccda647Slclee cmlb_rot_delay) / (int)60000); 25103ccda647Slclee } 25113ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 25123ccda647Slclee 25133ccda647Slclee rval = ddi_copyout(tmp_geom, (void *)arg, sizeof (struct dk_geom), 25143ccda647Slclee flag); 25153ccda647Slclee if (rval != 0) { 25163ccda647Slclee rval = EFAULT; 25173ccda647Slclee } 25183ccda647Slclee 25193ccda647Slclee kmem_free(tmp_geom, sizeof (struct dk_geom)); 25203ccda647Slclee return (rval); 25213ccda647Slclee 25223ccda647Slclee } 25233ccda647Slclee 25243ccda647Slclee 25253ccda647Slclee /* 25263ccda647Slclee * Function: cmlb_dkio_set_geometry 25273ccda647Slclee * 25283ccda647Slclee * Description: This routine is the driver entry point for handling user 25293ccda647Slclee * requests to set the device geometry (DKIOCSGEOM). The actual 25303ccda647Slclee * device geometry is not updated, just the driver "notion" of it. 25313ccda647Slclee * 25323ccda647Slclee * Arguments: 25333ccda647Slclee * arg - pointer to user provided dk_geom structure used to set 25343ccda647Slclee * the controller's notion of the current geometry. 25353ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 25363ccda647Slclee * directly from the mode argument of ioctl(). 25373ccda647Slclee * 25383ccda647Slclee * Return Code: 0 25393ccda647Slclee * EFAULT 25403ccda647Slclee * ENXIO 25413ccda647Slclee * EIO 25423ccda647Slclee */ 25433ccda647Slclee static int 25443ccda647Slclee cmlb_dkio_set_geometry(struct cmlb_lun *un, caddr_t arg, int flag) 25453ccda647Slclee { 25463ccda647Slclee struct dk_geom *tmp_geom; 25473ccda647Slclee struct dk_map *lp; 25483ccda647Slclee int rval = 0; 25493ccda647Slclee int i; 25503ccda647Slclee 25513ccda647Slclee 25523ccda647Slclee #if defined(__i386) || defined(__amd64) 25533ccda647Slclee if (un->un_solaris_size == 0) { 25543ccda647Slclee return (EIO); 25553ccda647Slclee } 25563ccda647Slclee #endif 25573ccda647Slclee /* 25583ccda647Slclee * We need to copy the user specified geometry into local 25593ccda647Slclee * storage and then update the softstate. We don't want to hold 25603ccda647Slclee * the mutex and copyin directly from the user to the soft state 25613ccda647Slclee */ 25623ccda647Slclee tmp_geom = (struct dk_geom *) 25633ccda647Slclee kmem_zalloc(sizeof (struct dk_geom), KM_SLEEP); 25643ccda647Slclee rval = ddi_copyin(arg, tmp_geom, sizeof (struct dk_geom), flag); 25653ccda647Slclee if (rval != 0) { 25663ccda647Slclee kmem_free(tmp_geom, sizeof (struct dk_geom)); 25673ccda647Slclee return (EFAULT); 25683ccda647Slclee } 25693ccda647Slclee 25703ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 25713ccda647Slclee bcopy(tmp_geom, &un->un_g, sizeof (struct dk_geom)); 25723ccda647Slclee for (i = 0; i < NDKMAP; i++) { 25733ccda647Slclee lp = &un->un_map[i]; 25743ccda647Slclee un->un_offset[i] = 25753ccda647Slclee un->un_g.dkg_nhead * un->un_g.dkg_nsect * lp->dkl_cylno; 25763ccda647Slclee #if defined(__i386) || defined(__amd64) 25773ccda647Slclee un->un_offset[i] += un->un_solaris_offset; 25783ccda647Slclee #endif 25793ccda647Slclee } 25803ccda647Slclee un->un_f_geometry_is_valid = FALSE; 25813ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 25823ccda647Slclee kmem_free(tmp_geom, sizeof (struct dk_geom)); 25833ccda647Slclee 25843ccda647Slclee return (rval); 25853ccda647Slclee } 25863ccda647Slclee 25873ccda647Slclee /* 25883ccda647Slclee * Function: cmlb_dkio_get_partition 25893ccda647Slclee * 25903ccda647Slclee * Description: This routine is the driver entry point for handling user 25913ccda647Slclee * requests to get the partition table (DKIOCGAPART). 25923ccda647Slclee * 25933ccda647Slclee * Arguments: 25943ccda647Slclee * arg - pointer to user provided dk_allmap structure specifying 25953ccda647Slclee * the controller's notion of the current partition table. 25963ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 25973ccda647Slclee * directly from the mode argument of ioctl(). 25983ccda647Slclee * 25993ccda647Slclee * Return Code: 0 26003ccda647Slclee * EFAULT 26013ccda647Slclee * ENXIO 26023ccda647Slclee * EIO 26033ccda647Slclee */ 26043ccda647Slclee static int 26053ccda647Slclee cmlb_dkio_get_partition(struct cmlb_lun *un, caddr_t arg, int flag) 26063ccda647Slclee { 26073ccda647Slclee int rval = 0; 26083ccda647Slclee int size; 26093ccda647Slclee 26103ccda647Slclee /* 26113ccda647Slclee * Make sure the geometry is valid before getting the partition 26123ccda647Slclee * information. 26133ccda647Slclee */ 26143ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 26153ccda647Slclee if ((rval = cmlb_validate_geometry(un, 1)) != 0) { 26163ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 26173ccda647Slclee return (rval); 26183ccda647Slclee } 26193ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 26203ccda647Slclee 26213ccda647Slclee #if defined(__i386) || defined(__amd64) 26223ccda647Slclee if (un->un_solaris_size == 0) { 26233ccda647Slclee return (EIO); 26243ccda647Slclee } 26253ccda647Slclee #endif 26263ccda647Slclee 26273ccda647Slclee #ifdef _MULTI_DATAMODEL 26283ccda647Slclee switch (ddi_model_convert_from(flag & FMODELS)) { 26293ccda647Slclee case DDI_MODEL_ILP32: { 26303ccda647Slclee struct dk_map32 dk_map32[NDKMAP]; 26313ccda647Slclee int i; 26323ccda647Slclee 26333ccda647Slclee for (i = 0; i < NDKMAP; i++) { 26343ccda647Slclee dk_map32[i].dkl_cylno = un->un_map[i].dkl_cylno; 26353ccda647Slclee dk_map32[i].dkl_nblk = un->un_map[i].dkl_nblk; 26363ccda647Slclee } 26373ccda647Slclee size = NDKMAP * sizeof (struct dk_map32); 26383ccda647Slclee rval = ddi_copyout(dk_map32, (void *)arg, size, flag); 26393ccda647Slclee if (rval != 0) { 26403ccda647Slclee rval = EFAULT; 26413ccda647Slclee } 26423ccda647Slclee break; 26433ccda647Slclee } 26443ccda647Slclee case DDI_MODEL_NONE: 26453ccda647Slclee size = NDKMAP * sizeof (struct dk_map); 26463ccda647Slclee rval = ddi_copyout(un->un_map, (void *)arg, size, flag); 26473ccda647Slclee if (rval != 0) { 26483ccda647Slclee rval = EFAULT; 26493ccda647Slclee } 26503ccda647Slclee break; 26513ccda647Slclee } 26523ccda647Slclee #else /* ! _MULTI_DATAMODEL */ 26533ccda647Slclee size = NDKMAP * sizeof (struct dk_map); 26543ccda647Slclee rval = ddi_copyout(un->un_map, (void *)arg, size, flag); 26553ccda647Slclee if (rval != 0) { 26563ccda647Slclee rval = EFAULT; 26573ccda647Slclee } 26583ccda647Slclee #endif /* _MULTI_DATAMODEL */ 26593ccda647Slclee return (rval); 26603ccda647Slclee } 26613ccda647Slclee 26623ccda647Slclee /* 26633ccda647Slclee * Function: cmlb_dkio_set_partition 26643ccda647Slclee * 26653ccda647Slclee * Description: This routine is the driver entry point for handling user 26663ccda647Slclee * requests to set the partition table (DKIOCSAPART). The actual 26673ccda647Slclee * device partition is not updated. 26683ccda647Slclee * 26693ccda647Slclee * Arguments: 26703ccda647Slclee * arg - pointer to user provided dk_allmap structure used to set 26713ccda647Slclee * the controller's notion of the partition table. 26723ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 26733ccda647Slclee * directly from the mode argument of ioctl(). 26743ccda647Slclee * 26753ccda647Slclee * Return Code: 0 26763ccda647Slclee * EINVAL 26773ccda647Slclee * EFAULT 26783ccda647Slclee * ENXIO 26793ccda647Slclee * EIO 26803ccda647Slclee */ 26813ccda647Slclee static int 26823ccda647Slclee cmlb_dkio_set_partition(struct cmlb_lun *un, caddr_t arg, int flag) 26833ccda647Slclee { 26843ccda647Slclee struct dk_map dk_map[NDKMAP]; 26853ccda647Slclee struct dk_map *lp; 26863ccda647Slclee int rval = 0; 26873ccda647Slclee int size; 26883ccda647Slclee int i; 26893ccda647Slclee #if defined(_SUNOS_VTOC_16) 26903ccda647Slclee struct dkl_partition *vp; 26913ccda647Slclee #endif 26923ccda647Slclee 26933ccda647Slclee /* 26943ccda647Slclee * Set the map for all logical partitions. We lock 26953ccda647Slclee * the priority just to make sure an interrupt doesn't 26963ccda647Slclee * come in while the map is half updated. 26973ccda647Slclee */ 26983ccda647Slclee _NOTE(DATA_READABLE_WITHOUT_LOCK(cmlb_lun::un_solaris_size)) 26993ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 27003ccda647Slclee 27013ccda647Slclee if (un->un_blockcount > DK_MAX_BLOCKS) { 27023ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 27033ccda647Slclee return (ENOTSUP); 27043ccda647Slclee } 27053ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 27063ccda647Slclee if (un->un_solaris_size == 0) { 27073ccda647Slclee return (EIO); 27083ccda647Slclee } 27093ccda647Slclee 27103ccda647Slclee #ifdef _MULTI_DATAMODEL 27113ccda647Slclee switch (ddi_model_convert_from(flag & FMODELS)) { 27123ccda647Slclee case DDI_MODEL_ILP32: { 27133ccda647Slclee struct dk_map32 dk_map32[NDKMAP]; 27143ccda647Slclee 27153ccda647Slclee size = NDKMAP * sizeof (struct dk_map32); 27163ccda647Slclee rval = ddi_copyin((void *)arg, dk_map32, size, flag); 27173ccda647Slclee if (rval != 0) { 27183ccda647Slclee return (EFAULT); 27193ccda647Slclee } 27203ccda647Slclee for (i = 0; i < NDKMAP; i++) { 27213ccda647Slclee dk_map[i].dkl_cylno = dk_map32[i].dkl_cylno; 27223ccda647Slclee dk_map[i].dkl_nblk = dk_map32[i].dkl_nblk; 27233ccda647Slclee } 27243ccda647Slclee break; 27253ccda647Slclee } 27263ccda647Slclee case DDI_MODEL_NONE: 27273ccda647Slclee size = NDKMAP * sizeof (struct dk_map); 27283ccda647Slclee rval = ddi_copyin((void *)arg, dk_map, size, flag); 27293ccda647Slclee if (rval != 0) { 27303ccda647Slclee return (EFAULT); 27313ccda647Slclee } 27323ccda647Slclee break; 27333ccda647Slclee } 27343ccda647Slclee #else /* ! _MULTI_DATAMODEL */ 27353ccda647Slclee size = NDKMAP * sizeof (struct dk_map); 27363ccda647Slclee rval = ddi_copyin((void *)arg, dk_map, size, flag); 27373ccda647Slclee if (rval != 0) { 27383ccda647Slclee return (EFAULT); 27393ccda647Slclee } 27403ccda647Slclee #endif /* _MULTI_DATAMODEL */ 27413ccda647Slclee 27423ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 27433ccda647Slclee /* Note: The size used in this bcopy is set based upon the data model */ 27443ccda647Slclee bcopy(dk_map, un->un_map, size); 27453ccda647Slclee #if defined(_SUNOS_VTOC_16) 27463ccda647Slclee vp = (struct dkl_partition *)&(un->un_vtoc); 27473ccda647Slclee #endif /* defined(_SUNOS_VTOC_16) */ 27483ccda647Slclee for (i = 0; i < NDKMAP; i++) { 27493ccda647Slclee lp = &un->un_map[i]; 27503ccda647Slclee un->un_offset[i] = 27513ccda647Slclee un->un_g.dkg_nhead * un->un_g.dkg_nsect * lp->dkl_cylno; 27523ccda647Slclee #if defined(_SUNOS_VTOC_16) 27533ccda647Slclee vp->p_start = un->un_offset[i]; 27543ccda647Slclee vp->p_size = lp->dkl_nblk; 27553ccda647Slclee vp++; 27563ccda647Slclee #endif /* defined(_SUNOS_VTOC_16) */ 27573ccda647Slclee #if defined(__i386) || defined(__amd64) 27583ccda647Slclee un->un_offset[i] += un->un_solaris_offset; 27593ccda647Slclee #endif 27603ccda647Slclee } 27613ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 27623ccda647Slclee return (rval); 27633ccda647Slclee } 27643ccda647Slclee 27653ccda647Slclee 27663ccda647Slclee /* 27673ccda647Slclee * Function: cmlb_dkio_get_vtoc 27683ccda647Slclee * 27693ccda647Slclee * Description: This routine is the driver entry point for handling user 27703ccda647Slclee * requests to get the current volume table of contents 27713ccda647Slclee * (DKIOCGVTOC). 27723ccda647Slclee * 27733ccda647Slclee * Arguments: 27743ccda647Slclee * arg - pointer to user provided vtoc structure specifying 27753ccda647Slclee * the current vtoc. 27763ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 27773ccda647Slclee * directly from the mode argument of ioctl(). 27783ccda647Slclee * 27793ccda647Slclee * Return Code: 0 27803ccda647Slclee * EFAULT 27813ccda647Slclee * ENXIO 27823ccda647Slclee * EIO 27833ccda647Slclee */ 27843ccda647Slclee static int 27853ccda647Slclee cmlb_dkio_get_vtoc(struct cmlb_lun *un, caddr_t arg, int flag) 27863ccda647Slclee { 27873ccda647Slclee #if defined(_SUNOS_VTOC_8) 27883ccda647Slclee struct vtoc user_vtoc; 27893ccda647Slclee #endif /* defined(_SUNOS_VTOC_8) */ 27903ccda647Slclee int rval = 0; 27913ccda647Slclee 27923ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 27933ccda647Slclee rval = cmlb_validate_geometry(un, 1); 27943ccda647Slclee 27953ccda647Slclee #if defined(_SUNOS_VTOC_8) 27963ccda647Slclee if (rval == EINVAL && 27973ccda647Slclee (un->un_alter_behavior & CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8)) { 27983ccda647Slclee /* 27993ccda647Slclee * This is to return a default label even when we do not 28003ccda647Slclee * really assume a default label for the device. 28013ccda647Slclee * dad driver utilizes this. 28023ccda647Slclee */ 28033ccda647Slclee if (un->un_blockcount <= DK_MAX_BLOCKS) { 28043ccda647Slclee cmlb_setup_default_geometry(un); 28053ccda647Slclee rval = 0; 28063ccda647Slclee } 28073ccda647Slclee } 28083ccda647Slclee #endif 28093ccda647Slclee if (rval) { 28103ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 28113ccda647Slclee return (rval); 28123ccda647Slclee } 28133ccda647Slclee 28143ccda647Slclee #if defined(_SUNOS_VTOC_8) 28153ccda647Slclee cmlb_build_user_vtoc(un, &user_vtoc); 28163ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 28173ccda647Slclee 28183ccda647Slclee #ifdef _MULTI_DATAMODEL 28193ccda647Slclee switch (ddi_model_convert_from(flag & FMODELS)) { 28203ccda647Slclee case DDI_MODEL_ILP32: { 28213ccda647Slclee struct vtoc32 user_vtoc32; 28223ccda647Slclee 28233ccda647Slclee vtoctovtoc32(user_vtoc, user_vtoc32); 28243ccda647Slclee if (ddi_copyout(&user_vtoc32, (void *)arg, 28253ccda647Slclee sizeof (struct vtoc32), flag)) { 28263ccda647Slclee return (EFAULT); 28273ccda647Slclee } 28283ccda647Slclee break; 28293ccda647Slclee } 28303ccda647Slclee 28313ccda647Slclee case DDI_MODEL_NONE: 28323ccda647Slclee if (ddi_copyout(&user_vtoc, (void *)arg, 28333ccda647Slclee sizeof (struct vtoc), flag)) { 28343ccda647Slclee return (EFAULT); 28353ccda647Slclee } 28363ccda647Slclee break; 28373ccda647Slclee } 28383ccda647Slclee #else /* ! _MULTI_DATAMODEL */ 28393ccda647Slclee if (ddi_copyout(&user_vtoc, (void *)arg, sizeof (struct vtoc), flag)) { 28403ccda647Slclee return (EFAULT); 28413ccda647Slclee } 28423ccda647Slclee #endif /* _MULTI_DATAMODEL */ 28433ccda647Slclee 28443ccda647Slclee #elif defined(_SUNOS_VTOC_16) 28453ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 28463ccda647Slclee 28473ccda647Slclee #ifdef _MULTI_DATAMODEL 28483ccda647Slclee /* 28493ccda647Slclee * The un_vtoc structure is a "struct dk_vtoc" which is always 28503ccda647Slclee * 32-bit to maintain compatibility with existing on-disk 28513ccda647Slclee * structures. Thus, we need to convert the structure when copying 28523ccda647Slclee * it out to a datamodel-dependent "struct vtoc" in a 64-bit 28533ccda647Slclee * program. If the target is a 32-bit program, then no conversion 28543ccda647Slclee * is necessary. 28553ccda647Slclee */ 28563ccda647Slclee /* LINTED: logical expression always true: op "||" */ 28573ccda647Slclee ASSERT(sizeof (un->un_vtoc) == sizeof (struct vtoc32)); 28583ccda647Slclee switch (ddi_model_convert_from(flag & FMODELS)) { 28593ccda647Slclee case DDI_MODEL_ILP32: 28603ccda647Slclee if (ddi_copyout(&(un->un_vtoc), (void *)arg, 28613ccda647Slclee sizeof (un->un_vtoc), flag)) { 28623ccda647Slclee return (EFAULT); 28633ccda647Slclee } 28643ccda647Slclee break; 28653ccda647Slclee 28663ccda647Slclee case DDI_MODEL_NONE: { 28673ccda647Slclee struct vtoc user_vtoc; 28683ccda647Slclee 28693ccda647Slclee vtoc32tovtoc(un->un_vtoc, user_vtoc); 28703ccda647Slclee if (ddi_copyout(&user_vtoc, (void *)arg, 28713ccda647Slclee sizeof (struct vtoc), flag)) { 28723ccda647Slclee return (EFAULT); 28733ccda647Slclee } 28743ccda647Slclee break; 28753ccda647Slclee } 28763ccda647Slclee } 28773ccda647Slclee #else /* ! _MULTI_DATAMODEL */ 28783ccda647Slclee if (ddi_copyout(&(un->un_vtoc), (void *)arg, sizeof (un->un_vtoc), 28793ccda647Slclee flag)) { 28803ccda647Slclee return (EFAULT); 28813ccda647Slclee } 28823ccda647Slclee #endif /* _MULTI_DATAMODEL */ 28833ccda647Slclee #else 28843ccda647Slclee #error "No VTOC format defined." 28853ccda647Slclee #endif 28863ccda647Slclee 28873ccda647Slclee return (rval); 28883ccda647Slclee } 28893ccda647Slclee 28903ccda647Slclee static int 28913ccda647Slclee cmlb_dkio_get_efi(struct cmlb_lun *un, caddr_t arg, int flag) 28923ccda647Slclee { 28933ccda647Slclee dk_efi_t user_efi; 28943ccda647Slclee int rval = 0; 28953ccda647Slclee void *buffer; 28963ccda647Slclee 28973ccda647Slclee if (ddi_copyin(arg, &user_efi, sizeof (dk_efi_t), flag)) 28983ccda647Slclee return (EFAULT); 28993ccda647Slclee 29003ccda647Slclee user_efi.dki_data = (void *)(uintptr_t)user_efi.dki_data_64; 29013ccda647Slclee 29023ccda647Slclee buffer = kmem_alloc(user_efi.dki_length, KM_SLEEP); 29033ccda647Slclee rval = DK_TG_READ(un, buffer, user_efi.dki_lba, user_efi.dki_length); 29043ccda647Slclee if (rval == 0 && ddi_copyout(buffer, user_efi.dki_data, 29053ccda647Slclee user_efi.dki_length, flag) != 0) 29063ccda647Slclee rval = EFAULT; 29073ccda647Slclee 29083ccda647Slclee kmem_free(buffer, user_efi.dki_length); 29093ccda647Slclee return (rval); 29103ccda647Slclee } 29113ccda647Slclee 29123ccda647Slclee /* 29133ccda647Slclee * Function: cmlb_build_user_vtoc 29143ccda647Slclee * 29153ccda647Slclee * Description: This routine populates a pass by reference variable with the 29163ccda647Slclee * current volume table of contents. 29173ccda647Slclee * 29183ccda647Slclee * Arguments: un - driver soft state (unit) structure 29193ccda647Slclee * user_vtoc - pointer to vtoc structure to be populated 29203ccda647Slclee */ 29213ccda647Slclee static void 29223ccda647Slclee cmlb_build_user_vtoc(struct cmlb_lun *un, struct vtoc *user_vtoc) 29233ccda647Slclee { 29243ccda647Slclee struct dk_map2 *lpart; 29253ccda647Slclee struct dk_map *lmap; 29263ccda647Slclee struct partition *vpart; 29273ccda647Slclee int nblks; 29283ccda647Slclee int i; 29293ccda647Slclee 29303ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 29313ccda647Slclee 29323ccda647Slclee /* 29333ccda647Slclee * Return vtoc structure fields in the provided VTOC area, addressed 29343ccda647Slclee * by *vtoc. 29353ccda647Slclee */ 29363ccda647Slclee bzero(user_vtoc, sizeof (struct vtoc)); 29373ccda647Slclee user_vtoc->v_bootinfo[0] = un->un_vtoc.v_bootinfo[0]; 29383ccda647Slclee user_vtoc->v_bootinfo[1] = un->un_vtoc.v_bootinfo[1]; 29393ccda647Slclee user_vtoc->v_bootinfo[2] = un->un_vtoc.v_bootinfo[2]; 29403ccda647Slclee user_vtoc->v_sanity = VTOC_SANE; 29413ccda647Slclee user_vtoc->v_version = un->un_vtoc.v_version; 29423ccda647Slclee bcopy(un->un_vtoc.v_volume, user_vtoc->v_volume, LEN_DKL_VVOL); 29433ccda647Slclee user_vtoc->v_sectorsz = un->un_sys_blocksize; 29443ccda647Slclee user_vtoc->v_nparts = un->un_vtoc.v_nparts; 29453ccda647Slclee 29463ccda647Slclee for (i = 0; i < 10; i++) 29473ccda647Slclee user_vtoc->v_reserved[i] = un->un_vtoc.v_reserved[i]; 29483ccda647Slclee 29493ccda647Slclee /* 29503ccda647Slclee * Convert partitioning information. 29513ccda647Slclee * 29523ccda647Slclee * Note the conversion from starting cylinder number 29533ccda647Slclee * to starting sector number. 29543ccda647Slclee */ 29553ccda647Slclee lmap = un->un_map; 29563ccda647Slclee lpart = (struct dk_map2 *)un->un_vtoc.v_part; 29573ccda647Slclee vpart = user_vtoc->v_part; 29583ccda647Slclee 29593ccda647Slclee nblks = un->un_g.dkg_nsect * un->un_g.dkg_nhead; 29603ccda647Slclee 29613ccda647Slclee for (i = 0; i < V_NUMPAR; i++) { 29623ccda647Slclee vpart->p_tag = lpart->p_tag; 29633ccda647Slclee vpart->p_flag = lpart->p_flag; 29643ccda647Slclee vpart->p_start = lmap->dkl_cylno * nblks; 29653ccda647Slclee vpart->p_size = lmap->dkl_nblk; 29663ccda647Slclee lmap++; 29673ccda647Slclee lpart++; 29683ccda647Slclee vpart++; 29693ccda647Slclee 29703ccda647Slclee /* (4364927) */ 29713ccda647Slclee user_vtoc->timestamp[i] = (time_t)un->un_vtoc.v_timestamp[i]; 29723ccda647Slclee } 29733ccda647Slclee 29743ccda647Slclee bcopy(un->un_asciilabel, user_vtoc->v_asciilabel, LEN_DKL_ASCII); 29753ccda647Slclee } 29763ccda647Slclee 29773ccda647Slclee static int 29783ccda647Slclee cmlb_dkio_partition(struct cmlb_lun *un, caddr_t arg, int flag) 29793ccda647Slclee { 29803ccda647Slclee struct partition64 p64; 29813ccda647Slclee int rval = 0; 29823ccda647Slclee uint_t nparts; 29833ccda647Slclee efi_gpe_t *partitions; 29843ccda647Slclee efi_gpt_t *buffer; 29853ccda647Slclee diskaddr_t gpe_lba; 29863ccda647Slclee 29873ccda647Slclee if (ddi_copyin((const void *)arg, &p64, 29883ccda647Slclee sizeof (struct partition64), flag)) { 29893ccda647Slclee return (EFAULT); 29903ccda647Slclee } 29913ccda647Slclee 29923ccda647Slclee buffer = kmem_alloc(EFI_MIN_ARRAY_SIZE, KM_SLEEP); 29933ccda647Slclee rval = DK_TG_READ(un, buffer, 1, DEV_BSIZE); 29943ccda647Slclee if (rval != 0) 29953ccda647Slclee goto done_error; 29963ccda647Slclee 29973ccda647Slclee cmlb_swap_efi_gpt(buffer); 29983ccda647Slclee 29993ccda647Slclee if ((rval = cmlb_validate_efi(buffer)) != 0) 30003ccda647Slclee goto done_error; 30013ccda647Slclee 30023ccda647Slclee nparts = buffer->efi_gpt_NumberOfPartitionEntries; 30033ccda647Slclee gpe_lba = buffer->efi_gpt_PartitionEntryLBA; 30043ccda647Slclee if (p64.p_partno > nparts) { 30053ccda647Slclee /* couldn't find it */ 30063ccda647Slclee rval = ESRCH; 30073ccda647Slclee goto done_error; 30083ccda647Slclee } 30093ccda647Slclee /* 30103ccda647Slclee * if we're dealing with a partition that's out of the normal 30113ccda647Slclee * 16K block, adjust accordingly 30123ccda647Slclee */ 30133ccda647Slclee gpe_lba += p64.p_partno / sizeof (efi_gpe_t); 30143ccda647Slclee rval = DK_TG_READ(un, buffer, gpe_lba, EFI_MIN_ARRAY_SIZE); 30153ccda647Slclee 30163ccda647Slclee if (rval) { 30173ccda647Slclee goto done_error; 30183ccda647Slclee } 30193ccda647Slclee partitions = (efi_gpe_t *)buffer; 30203ccda647Slclee 30213ccda647Slclee cmlb_swap_efi_gpe(nparts, partitions); 30223ccda647Slclee 30233ccda647Slclee partitions += p64.p_partno; 30243ccda647Slclee bcopy(&partitions->efi_gpe_PartitionTypeGUID, &p64.p_type, 30253ccda647Slclee sizeof (struct uuid)); 30263ccda647Slclee p64.p_start = partitions->efi_gpe_StartingLBA; 30273ccda647Slclee p64.p_size = partitions->efi_gpe_EndingLBA - 30283ccda647Slclee p64.p_start + 1; 30293ccda647Slclee 30303ccda647Slclee if (ddi_copyout(&p64, (void *)arg, sizeof (struct partition64), flag)) 30313ccda647Slclee rval = EFAULT; 30323ccda647Slclee 30333ccda647Slclee done_error: 30343ccda647Slclee kmem_free(buffer, EFI_MIN_ARRAY_SIZE); 30353ccda647Slclee return (rval); 30363ccda647Slclee } 30373ccda647Slclee 30383ccda647Slclee 30393ccda647Slclee /* 30403ccda647Slclee * Function: cmlb_dkio_set_vtoc 30413ccda647Slclee * 30423ccda647Slclee * Description: This routine is the driver entry point for handling user 30433ccda647Slclee * requests to set the current volume table of contents 30443ccda647Slclee * (DKIOCSVTOC). 30453ccda647Slclee * 30463ccda647Slclee * Arguments: dev - the device number 30473ccda647Slclee * arg - pointer to user provided vtoc structure used to set the 30483ccda647Slclee * current vtoc. 30493ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 30503ccda647Slclee * directly from the mode argument of ioctl(). 30513ccda647Slclee * 30523ccda647Slclee * Return Code: 0 30533ccda647Slclee * EFAULT 30543ccda647Slclee * ENXIO 30553ccda647Slclee * EINVAL 30563ccda647Slclee * ENOTSUP 30573ccda647Slclee */ 30583ccda647Slclee static int 30593ccda647Slclee cmlb_dkio_set_vtoc(struct cmlb_lun *un, dev_t dev, caddr_t arg, int flag) 30603ccda647Slclee { 30613ccda647Slclee struct vtoc user_vtoc; 30623ccda647Slclee int rval = 0; 30633ccda647Slclee 30643ccda647Slclee #ifdef _MULTI_DATAMODEL 30653ccda647Slclee switch (ddi_model_convert_from(flag & FMODELS)) { 30663ccda647Slclee case DDI_MODEL_ILP32: { 30673ccda647Slclee struct vtoc32 user_vtoc32; 30683ccda647Slclee 30693ccda647Slclee if (ddi_copyin((const void *)arg, &user_vtoc32, 30703ccda647Slclee sizeof (struct vtoc32), flag)) { 30713ccda647Slclee return (EFAULT); 30723ccda647Slclee } 30733ccda647Slclee vtoc32tovtoc(user_vtoc32, user_vtoc); 30743ccda647Slclee break; 30753ccda647Slclee } 30763ccda647Slclee 30773ccda647Slclee case DDI_MODEL_NONE: 30783ccda647Slclee if (ddi_copyin((const void *)arg, &user_vtoc, 30793ccda647Slclee sizeof (struct vtoc), flag)) { 30803ccda647Slclee return (EFAULT); 30813ccda647Slclee } 30823ccda647Slclee break; 30833ccda647Slclee } 30843ccda647Slclee #else /* ! _MULTI_DATAMODEL */ 30853ccda647Slclee if (ddi_copyin((const void *)arg, &user_vtoc, 30863ccda647Slclee sizeof (struct vtoc), flag)) { 30873ccda647Slclee return (EFAULT); 30883ccda647Slclee } 30893ccda647Slclee #endif /* _MULTI_DATAMODEL */ 30903ccda647Slclee 30913ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 30923ccda647Slclee if (un->un_blockcount > DK_MAX_BLOCKS) { 30933ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 30943ccda647Slclee return (ENOTSUP); 30953ccda647Slclee } 30963ccda647Slclee if (un->un_g.dkg_ncyl == 0) { 30973ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 30983ccda647Slclee return (EINVAL); 30993ccda647Slclee } 31003ccda647Slclee 31013ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 31023ccda647Slclee cmlb_clear_efi(un); 31033ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "wd"); 31043ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "wd,raw"); 31053ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "h", 31063ccda647Slclee S_IFBLK, (CMLBUNIT(dev) << CMLBUNIT_SHIFT) | WD_NODE, 31073ccda647Slclee un->un_node_type, NULL); 31083ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "h,raw", 31093ccda647Slclee S_IFCHR, (CMLBUNIT(dev) << CMLBUNIT_SHIFT) | WD_NODE, 31103ccda647Slclee un->un_node_type, NULL); 31113ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 31123ccda647Slclee 31133ccda647Slclee if ((rval = cmlb_build_label_vtoc(un, &user_vtoc)) == 0) { 31143ccda647Slclee if ((rval = cmlb_write_label(un)) == 0) { 31153ccda647Slclee if (cmlb_validate_geometry(un, 1) != 0) { 31163ccda647Slclee cmlb_dbg(CMLB_ERROR, un, 31173ccda647Slclee "cmlb_dkio_set_vtoc: " 31183ccda647Slclee "Failed validate geometry\n"); 31193ccda647Slclee } 31203ccda647Slclee } 31213ccda647Slclee } 31223ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 31233ccda647Slclee return (rval); 31243ccda647Slclee } 31253ccda647Slclee 31263ccda647Slclee 31273ccda647Slclee /* 31283ccda647Slclee * Function: cmlb_build_label_vtoc 31293ccda647Slclee * 31303ccda647Slclee * Description: This routine updates the driver soft state current volume table 31313ccda647Slclee * of contents based on a user specified vtoc. 31323ccda647Slclee * 31333ccda647Slclee * Arguments: un - driver soft state (unit) structure 31343ccda647Slclee * user_vtoc - pointer to vtoc structure specifying vtoc to be used 31353ccda647Slclee * to update the driver soft state. 31363ccda647Slclee * 31373ccda647Slclee * Return Code: 0 31383ccda647Slclee * EINVAL 31393ccda647Slclee */ 31403ccda647Slclee static int 31413ccda647Slclee cmlb_build_label_vtoc(struct cmlb_lun *un, struct vtoc *user_vtoc) 31423ccda647Slclee { 31433ccda647Slclee struct dk_map *lmap; 31443ccda647Slclee struct partition *vpart; 31453ccda647Slclee int nblks; 31463ccda647Slclee #if defined(_SUNOS_VTOC_8) 31473ccda647Slclee int ncyl; 31483ccda647Slclee struct dk_map2 *lpart; 31493ccda647Slclee #endif /* defined(_SUNOS_VTOC_8) */ 31503ccda647Slclee int i; 31513ccda647Slclee 31523ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 31533ccda647Slclee 31543ccda647Slclee /* Sanity-check the vtoc */ 31553ccda647Slclee if (user_vtoc->v_sanity != VTOC_SANE || 31563ccda647Slclee user_vtoc->v_sectorsz != un->un_sys_blocksize || 31573ccda647Slclee user_vtoc->v_nparts != V_NUMPAR) { 31583ccda647Slclee cmlb_dbg(CMLB_INFO, un, 31593ccda647Slclee "cmlb_build_label_vtoc: vtoc not valid\n"); 31603ccda647Slclee return (EINVAL); 31613ccda647Slclee } 31623ccda647Slclee 31633ccda647Slclee nblks = un->un_g.dkg_nsect * un->un_g.dkg_nhead; 31643ccda647Slclee if (nblks == 0) { 31653ccda647Slclee cmlb_dbg(CMLB_INFO, un, 31663ccda647Slclee "cmlb_build_label_vtoc: geom nblks is 0\n"); 31673ccda647Slclee return (EINVAL); 31683ccda647Slclee } 31693ccda647Slclee 31703ccda647Slclee #if defined(_SUNOS_VTOC_8) 31713ccda647Slclee vpart = user_vtoc->v_part; 31723ccda647Slclee for (i = 0; i < V_NUMPAR; i++) { 31733ccda647Slclee if ((vpart->p_start % nblks) != 0) { 31743ccda647Slclee cmlb_dbg(CMLB_INFO, un, 31753ccda647Slclee "cmlb_build_label_vtoc: p_start not multiply of" 31763ccda647Slclee "nblks part %d p_start %d nblks %d\n", i, 31773ccda647Slclee vpart->p_start, nblks); 31783ccda647Slclee return (EINVAL); 31793ccda647Slclee } 31803ccda647Slclee ncyl = vpart->p_start / nblks; 31813ccda647Slclee ncyl += vpart->p_size / nblks; 31823ccda647Slclee if ((vpart->p_size % nblks) != 0) { 31833ccda647Slclee ncyl++; 31843ccda647Slclee } 31853ccda647Slclee if (ncyl > (int)un->un_g.dkg_ncyl) { 31863ccda647Slclee cmlb_dbg(CMLB_INFO, un, 31873ccda647Slclee "cmlb_build_label_vtoc: ncyl %d > dkg_ncyl %d" 31883ccda647Slclee "p_size %ld p_start %ld nblks %d part number %d" 31893ccda647Slclee "tag %d\n", 31903ccda647Slclee ncyl, un->un_g.dkg_ncyl, vpart->p_size, 31913ccda647Slclee vpart->p_start, nblks, 31923ccda647Slclee i, vpart->p_tag); 31933ccda647Slclee 31943ccda647Slclee return (EINVAL); 31953ccda647Slclee } 31963ccda647Slclee vpart++; 31973ccda647Slclee } 31983ccda647Slclee #endif /* defined(_SUNOS_VTOC_8) */ 31993ccda647Slclee 32003ccda647Slclee /* Put appropriate vtoc structure fields into the disk label */ 32013ccda647Slclee #if defined(_SUNOS_VTOC_16) 32023ccda647Slclee /* 32033ccda647Slclee * The vtoc is always a 32bit data structure to maintain the 32043ccda647Slclee * on-disk format. Convert "in place" instead of doing bcopy. 32053ccda647Slclee */ 32063ccda647Slclee vtoctovtoc32((*user_vtoc), (*((struct vtoc32 *)&(un->un_vtoc)))); 32073ccda647Slclee 32083ccda647Slclee /* 32093ccda647Slclee * in the 16-slice vtoc, starting sectors are expressed in 32103ccda647Slclee * numbers *relative* to the start of the Solaris fdisk partition. 32113ccda647Slclee */ 32123ccda647Slclee lmap = un->un_map; 32133ccda647Slclee vpart = user_vtoc->v_part; 32143ccda647Slclee 32153ccda647Slclee for (i = 0; i < (int)user_vtoc->v_nparts; i++, lmap++, vpart++) { 32163ccda647Slclee lmap->dkl_cylno = vpart->p_start / nblks; 32173ccda647Slclee lmap->dkl_nblk = vpart->p_size; 32183ccda647Slclee } 32193ccda647Slclee 32203ccda647Slclee #elif defined(_SUNOS_VTOC_8) 32213ccda647Slclee 32223ccda647Slclee un->un_vtoc.v_bootinfo[0] = (uint32_t)user_vtoc->v_bootinfo[0]; 32233ccda647Slclee un->un_vtoc.v_bootinfo[1] = (uint32_t)user_vtoc->v_bootinfo[1]; 32243ccda647Slclee un->un_vtoc.v_bootinfo[2] = (uint32_t)user_vtoc->v_bootinfo[2]; 32253ccda647Slclee 32263ccda647Slclee un->un_vtoc.v_sanity = (uint32_t)user_vtoc->v_sanity; 32273ccda647Slclee un->un_vtoc.v_version = (uint32_t)user_vtoc->v_version; 32283ccda647Slclee 32293ccda647Slclee bcopy(user_vtoc->v_volume, un->un_vtoc.v_volume, LEN_DKL_VVOL); 32303ccda647Slclee 32313ccda647Slclee un->un_vtoc.v_nparts = user_vtoc->v_nparts; 32323ccda647Slclee 32333ccda647Slclee for (i = 0; i < 10; i++) 32343ccda647Slclee un->un_vtoc.v_reserved[i] = user_vtoc->v_reserved[i]; 32353ccda647Slclee 32363ccda647Slclee /* 32373ccda647Slclee * Note the conversion from starting sector number 32383ccda647Slclee * to starting cylinder number. 32393ccda647Slclee * Return error if division results in a remainder. 32403ccda647Slclee */ 32413ccda647Slclee lmap = un->un_map; 32423ccda647Slclee lpart = un->un_vtoc.v_part; 32433ccda647Slclee vpart = user_vtoc->v_part; 32443ccda647Slclee 32453ccda647Slclee for (i = 0; i < (int)user_vtoc->v_nparts; i++) { 32463ccda647Slclee lpart->p_tag = vpart->p_tag; 32473ccda647Slclee lpart->p_flag = vpart->p_flag; 32483ccda647Slclee lmap->dkl_cylno = vpart->p_start / nblks; 32493ccda647Slclee lmap->dkl_nblk = vpart->p_size; 32503ccda647Slclee 32513ccda647Slclee lmap++; 32523ccda647Slclee lpart++; 32533ccda647Slclee vpart++; 32543ccda647Slclee 32553ccda647Slclee /* (4387723) */ 32563ccda647Slclee #ifdef _LP64 32573ccda647Slclee if (user_vtoc->timestamp[i] > TIME32_MAX) { 32583ccda647Slclee un->un_vtoc.v_timestamp[i] = TIME32_MAX; 32593ccda647Slclee } else { 32603ccda647Slclee un->un_vtoc.v_timestamp[i] = user_vtoc->timestamp[i]; 32613ccda647Slclee } 32623ccda647Slclee #else 32633ccda647Slclee un->un_vtoc.v_timestamp[i] = user_vtoc->timestamp[i]; 32643ccda647Slclee #endif 32653ccda647Slclee } 32663ccda647Slclee 32673ccda647Slclee bcopy(user_vtoc->v_asciilabel, un->un_asciilabel, LEN_DKL_ASCII); 32683ccda647Slclee #else 32693ccda647Slclee #error "No VTOC format defined." 32703ccda647Slclee #endif 32713ccda647Slclee return (0); 32723ccda647Slclee } 32733ccda647Slclee 32743ccda647Slclee /* 32753ccda647Slclee * Function: cmlb_clear_efi 32763ccda647Slclee * 32773ccda647Slclee * Description: This routine clears all EFI labels. 32783ccda647Slclee * 32793ccda647Slclee * Arguments: un - driver soft state (unit) structure 32803ccda647Slclee * 32813ccda647Slclee * Return Code: void 32823ccda647Slclee */ 32833ccda647Slclee static void 32843ccda647Slclee cmlb_clear_efi(struct cmlb_lun *un) 32853ccda647Slclee { 32863ccda647Slclee efi_gpt_t *gpt; 32873ccda647Slclee diskaddr_t cap; 32883ccda647Slclee int rval; 32893ccda647Slclee 32903ccda647Slclee ASSERT(!mutex_owned(CMLB_MUTEX(un))); 32913ccda647Slclee 32923ccda647Slclee gpt = kmem_alloc(sizeof (efi_gpt_t), KM_SLEEP); 32933ccda647Slclee 32943ccda647Slclee if (DK_TG_READ(un, gpt, 1, DEV_BSIZE) != 0) { 32953ccda647Slclee goto done; 32963ccda647Slclee } 32973ccda647Slclee 32983ccda647Slclee cmlb_swap_efi_gpt(gpt); 32993ccda647Slclee rval = cmlb_validate_efi(gpt); 33003ccda647Slclee if (rval == 0) { 33013ccda647Slclee /* clear primary */ 33023ccda647Slclee bzero(gpt, sizeof (efi_gpt_t)); 33033ccda647Slclee if (rval = DK_TG_WRITE(un, gpt, 1, EFI_LABEL_SIZE)) { 33043ccda647Slclee cmlb_dbg(CMLB_INFO, un, 33053ccda647Slclee "cmlb_clear_efi: clear primary label failed\n"); 33063ccda647Slclee } 33073ccda647Slclee } 33083ccda647Slclee /* the backup */ 33093ccda647Slclee rval = DK_TG_GETCAP(un, &cap); 33103ccda647Slclee if (rval) { 33113ccda647Slclee goto done; 33123ccda647Slclee } 33133ccda647Slclee 33143ccda647Slclee if ((rval = DK_TG_READ(un, gpt, cap - 1, EFI_LABEL_SIZE)) != 0) { 33153ccda647Slclee goto done; 33163ccda647Slclee } 33173ccda647Slclee cmlb_swap_efi_gpt(gpt); 33183ccda647Slclee rval = cmlb_validate_efi(gpt); 33193ccda647Slclee if (rval == 0) { 33203ccda647Slclee /* clear backup */ 33213ccda647Slclee cmlb_dbg(CMLB_TRACE, un, 33223ccda647Slclee "cmlb_clear_efi clear backup@%lu\n", cap - 1); 33233ccda647Slclee bzero(gpt, sizeof (efi_gpt_t)); 33243ccda647Slclee if ((rval = DK_TG_WRITE(un, gpt, cap - 1, EFI_LABEL_SIZE))) { 33253ccda647Slclee cmlb_dbg(CMLB_INFO, un, 33263ccda647Slclee "cmlb_clear_efi: clear backup label failed\n"); 33273ccda647Slclee } 33283ccda647Slclee } 33293ccda647Slclee 33303ccda647Slclee done: 33313ccda647Slclee kmem_free(gpt, sizeof (efi_gpt_t)); 33323ccda647Slclee } 33333ccda647Slclee 33343ccda647Slclee /* 33353ccda647Slclee * Function: cmlb_set_vtoc 33363ccda647Slclee * 33373ccda647Slclee * Description: This routine writes data to the appropriate positions 33383ccda647Slclee * 33393ccda647Slclee * Arguments: un - driver soft state (unit) structure 33403ccda647Slclee * dkl - the data to be written 33413ccda647Slclee * 33423ccda647Slclee * Return: void 33433ccda647Slclee */ 33443ccda647Slclee static int 33453ccda647Slclee cmlb_set_vtoc(struct cmlb_lun *un, struct dk_label *dkl) 33463ccda647Slclee { 33473ccda647Slclee uint_t label_addr; 33483ccda647Slclee int sec; 33493ccda647Slclee int blk; 33503ccda647Slclee int head; 33513ccda647Slclee int cyl; 33523ccda647Slclee int rval; 33533ccda647Slclee 33543ccda647Slclee #if defined(__i386) || defined(__amd64) 33553ccda647Slclee label_addr = un->un_solaris_offset + DK_LABEL_LOC; 33563ccda647Slclee #else 33573ccda647Slclee /* Write the primary label at block 0 of the solaris partition. */ 33583ccda647Slclee label_addr = 0; 33593ccda647Slclee #endif 33603ccda647Slclee 33613ccda647Slclee rval = DK_TG_WRITE(un, dkl, label_addr, un->un_sys_blocksize); 33623ccda647Slclee 33633ccda647Slclee if (rval != 0) { 33643ccda647Slclee return (rval); 33653ccda647Slclee } 33663ccda647Slclee 33673ccda647Slclee /* 33683ccda647Slclee * Calculate where the backup labels go. They are always on 33693ccda647Slclee * the last alternate cylinder, but some older drives put them 33703ccda647Slclee * on head 2 instead of the last head. They are always on the 33713ccda647Slclee * first 5 odd sectors of the appropriate track. 33723ccda647Slclee * 33733ccda647Slclee * We have no choice at this point, but to believe that the 33743ccda647Slclee * disk label is valid. Use the geometry of the disk 33753ccda647Slclee * as described in the label. 33763ccda647Slclee */ 33773ccda647Slclee cyl = dkl->dkl_ncyl + dkl->dkl_acyl - 1; 33783ccda647Slclee head = dkl->dkl_nhead - 1; 33793ccda647Slclee 33803ccda647Slclee /* 33813ccda647Slclee * Write and verify the backup labels. Make sure we don't try to 33823ccda647Slclee * write past the last cylinder. 33833ccda647Slclee */ 33843ccda647Slclee for (sec = 1; ((sec < 5 * 2 + 1) && (sec < dkl->dkl_nsect)); sec += 2) { 33853ccda647Slclee blk = (daddr_t)( 33863ccda647Slclee (cyl * ((dkl->dkl_nhead * dkl->dkl_nsect) - dkl->dkl_apc)) + 33873ccda647Slclee (head * dkl->dkl_nsect) + sec); 33883ccda647Slclee #if defined(__i386) || defined(__amd64) 33893ccda647Slclee blk += un->un_solaris_offset; 33903ccda647Slclee #endif 33913ccda647Slclee rval = DK_TG_WRITE(un, dkl, blk, un->un_sys_blocksize); 33923ccda647Slclee cmlb_dbg(CMLB_INFO, un, 33933ccda647Slclee "cmlb_set_vtoc: wrote backup label %d\n", blk); 33943ccda647Slclee if (rval != 0) { 33953ccda647Slclee goto exit; 33963ccda647Slclee } 33973ccda647Slclee } 33983ccda647Slclee exit: 33993ccda647Slclee return (rval); 34003ccda647Slclee } 34013ccda647Slclee 34023ccda647Slclee /* 34033ccda647Slclee * Function: cmlb_clear_vtoc 34043ccda647Slclee * 34053ccda647Slclee * Description: This routine clears out the VTOC labels. 34063ccda647Slclee * 34073ccda647Slclee * Arguments: un - driver soft state (unit) structure 34083ccda647Slclee * 34093ccda647Slclee * Return: void 34103ccda647Slclee */ 34113ccda647Slclee static void 34123ccda647Slclee cmlb_clear_vtoc(struct cmlb_lun *un) 34133ccda647Slclee { 34143ccda647Slclee struct dk_label *dkl; 34153ccda647Slclee 34163ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 34173ccda647Slclee dkl = kmem_zalloc(sizeof (struct dk_label), KM_SLEEP); 34183ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 34193ccda647Slclee /* 34203ccda647Slclee * cmlb_set_vtoc uses these fields in order to figure out 34213ccda647Slclee * where to overwrite the backup labels 34223ccda647Slclee */ 34233ccda647Slclee dkl->dkl_apc = un->un_g.dkg_apc; 34243ccda647Slclee dkl->dkl_ncyl = un->un_g.dkg_ncyl; 34253ccda647Slclee dkl->dkl_acyl = un->un_g.dkg_acyl; 34263ccda647Slclee dkl->dkl_nhead = un->un_g.dkg_nhead; 34273ccda647Slclee dkl->dkl_nsect = un->un_g.dkg_nsect; 34283ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 34293ccda647Slclee (void) cmlb_set_vtoc(un, dkl); 34303ccda647Slclee kmem_free(dkl, sizeof (struct dk_label)); 34313ccda647Slclee 34323ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 34333ccda647Slclee } 34343ccda647Slclee 34353ccda647Slclee /* 34363ccda647Slclee * Function: cmlb_write_label 34373ccda647Slclee * 34383ccda647Slclee * Description: This routine will validate and write the driver soft state vtoc 34393ccda647Slclee * contents to the device. 34403ccda647Slclee * 34413ccda647Slclee * Arguments: un cmlb handle 34423ccda647Slclee * 34433ccda647Slclee * Return Code: the code returned by cmlb_send_scsi_cmd() 34443ccda647Slclee * 0 34453ccda647Slclee * EINVAL 34463ccda647Slclee * ENXIO 34473ccda647Slclee * ENOMEM 34483ccda647Slclee */ 34493ccda647Slclee static int 34503ccda647Slclee cmlb_write_label(struct cmlb_lun *un) 34513ccda647Slclee { 34523ccda647Slclee struct dk_label *dkl; 34533ccda647Slclee short sum; 34543ccda647Slclee short *sp; 34553ccda647Slclee int i; 34563ccda647Slclee int rval; 34573ccda647Slclee 34583ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 34593ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 34603ccda647Slclee dkl = kmem_zalloc(sizeof (struct dk_label), KM_SLEEP); 34613ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 34623ccda647Slclee 34633ccda647Slclee bcopy(&un->un_vtoc, &dkl->dkl_vtoc, sizeof (struct dk_vtoc)); 34643ccda647Slclee dkl->dkl_rpm = un->un_g.dkg_rpm; 34653ccda647Slclee dkl->dkl_pcyl = un->un_g.dkg_pcyl; 34663ccda647Slclee dkl->dkl_apc = un->un_g.dkg_apc; 34673ccda647Slclee dkl->dkl_intrlv = un->un_g.dkg_intrlv; 34683ccda647Slclee dkl->dkl_ncyl = un->un_g.dkg_ncyl; 34693ccda647Slclee dkl->dkl_acyl = un->un_g.dkg_acyl; 34703ccda647Slclee dkl->dkl_nhead = un->un_g.dkg_nhead; 34713ccda647Slclee dkl->dkl_nsect = un->un_g.dkg_nsect; 34723ccda647Slclee 34733ccda647Slclee #if defined(_SUNOS_VTOC_8) 34743ccda647Slclee dkl->dkl_obs1 = un->un_g.dkg_obs1; 34753ccda647Slclee dkl->dkl_obs2 = un->un_g.dkg_obs2; 34763ccda647Slclee dkl->dkl_obs3 = un->un_g.dkg_obs3; 34773ccda647Slclee for (i = 0; i < NDKMAP; i++) { 34783ccda647Slclee dkl->dkl_map[i].dkl_cylno = un->un_map[i].dkl_cylno; 34793ccda647Slclee dkl->dkl_map[i].dkl_nblk = un->un_map[i].dkl_nblk; 34803ccda647Slclee } 34813ccda647Slclee bcopy(un->un_asciilabel, dkl->dkl_asciilabel, LEN_DKL_ASCII); 34823ccda647Slclee #elif defined(_SUNOS_VTOC_16) 34833ccda647Slclee dkl->dkl_skew = un->un_dkg_skew; 34843ccda647Slclee #else 34853ccda647Slclee #error "No VTOC format defined." 34863ccda647Slclee #endif 34873ccda647Slclee 34883ccda647Slclee dkl->dkl_magic = DKL_MAGIC; 34893ccda647Slclee dkl->dkl_write_reinstruct = un->un_g.dkg_write_reinstruct; 34903ccda647Slclee dkl->dkl_read_reinstruct = un->un_g.dkg_read_reinstruct; 34913ccda647Slclee 34923ccda647Slclee /* Construct checksum for the new disk label */ 34933ccda647Slclee sum = 0; 34943ccda647Slclee sp = (short *)dkl; 34953ccda647Slclee i = sizeof (struct dk_label) / sizeof (short); 34963ccda647Slclee while (i--) { 34973ccda647Slclee sum ^= *sp++; 34983ccda647Slclee } 34993ccda647Slclee dkl->dkl_cksum = sum; 35003ccda647Slclee 35013ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 35023ccda647Slclee 35033ccda647Slclee rval = cmlb_set_vtoc(un, dkl); 35043ccda647Slclee exit: 35053ccda647Slclee kmem_free(dkl, sizeof (struct dk_label)); 35063ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 35073ccda647Slclee return (rval); 35083ccda647Slclee } 35093ccda647Slclee 35103ccda647Slclee static int 35113ccda647Slclee cmlb_dkio_set_efi(struct cmlb_lun *un, dev_t dev, caddr_t arg, int flag) 35123ccda647Slclee { 35133ccda647Slclee dk_efi_t user_efi; 35143ccda647Slclee int rval = 0; 35153ccda647Slclee void *buffer; 35163ccda647Slclee 35173ccda647Slclee if (ddi_copyin(arg, &user_efi, sizeof (dk_efi_t), flag)) 35183ccda647Slclee return (EFAULT); 35193ccda647Slclee 35203ccda647Slclee user_efi.dki_data = (void *)(uintptr_t)user_efi.dki_data_64; 35213ccda647Slclee 35223ccda647Slclee buffer = kmem_alloc(user_efi.dki_length, KM_SLEEP); 35233ccda647Slclee if (ddi_copyin(user_efi.dki_data, buffer, user_efi.dki_length, flag)) { 35243ccda647Slclee rval = EFAULT; 35253ccda647Slclee } else { 35263ccda647Slclee /* 35273ccda647Slclee * let's clear the vtoc labels and clear the softstate 35283ccda647Slclee * vtoc. 35293ccda647Slclee */ 35303ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 35313ccda647Slclee if (un->un_vtoc.v_sanity == VTOC_SANE) { 35323ccda647Slclee cmlb_dbg(CMLB_TRACE, un, 35333ccda647Slclee "cmlb_dkio_set_efi: CLEAR VTOC\n"); 35343ccda647Slclee if (un->un_vtoc_label_is_from_media) 35353ccda647Slclee cmlb_clear_vtoc(un); 35363ccda647Slclee bzero(&un->un_vtoc, sizeof (struct dk_vtoc)); 35373ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 35383ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "h"); 35393ccda647Slclee ddi_remove_minor_node(CMLB_DEVINFO(un), "h,raw"); 35403ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "wd", 35413ccda647Slclee S_IFBLK, 35423ccda647Slclee (CMLBUNIT(dev) << CMLBUNIT_SHIFT) | WD_NODE, 35433ccda647Slclee un->un_node_type, NULL); 35443ccda647Slclee (void) ddi_create_minor_node(CMLB_DEVINFO(un), "wd,raw", 35453ccda647Slclee S_IFCHR, 35463ccda647Slclee (CMLBUNIT(dev) << CMLBUNIT_SHIFT) | WD_NODE, 35473ccda647Slclee un->un_node_type, NULL); 35483ccda647Slclee } else 35493ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 35503ccda647Slclee rval = DK_TG_WRITE(un, buffer, user_efi.dki_lba, 35513ccda647Slclee user_efi.dki_length); 35523ccda647Slclee if (rval == 0) { 35533ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 35543ccda647Slclee un->un_f_geometry_is_valid = FALSE; 35553ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 35563ccda647Slclee } 35573ccda647Slclee } 35583ccda647Slclee kmem_free(buffer, user_efi.dki_length); 35593ccda647Slclee return (rval); 35603ccda647Slclee } 35613ccda647Slclee 35623ccda647Slclee /* 35633ccda647Slclee * Function: cmlb_dkio_get_mboot 35643ccda647Slclee * 35653ccda647Slclee * Description: This routine is the driver entry point for handling user 35663ccda647Slclee * requests to get the current device mboot (DKIOCGMBOOT) 35673ccda647Slclee * 35683ccda647Slclee * Arguments: 35693ccda647Slclee * arg - pointer to user provided mboot structure specifying 35703ccda647Slclee * the current mboot. 35713ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 35723ccda647Slclee * directly from the mode argument of ioctl(). 35733ccda647Slclee * 35743ccda647Slclee * Return Code: 0 35753ccda647Slclee * EINVAL 35763ccda647Slclee * EFAULT 35773ccda647Slclee * ENXIO 35783ccda647Slclee */ 35793ccda647Slclee static int 35803ccda647Slclee cmlb_dkio_get_mboot(struct cmlb_lun *un, caddr_t arg, int flag) 35813ccda647Slclee { 35823ccda647Slclee struct mboot *mboot; 35833ccda647Slclee int rval; 35843ccda647Slclee size_t buffer_size; 35853ccda647Slclee 35863ccda647Slclee 35873ccda647Slclee #if defined(_SUNOS_VTOC_8) 35883ccda647Slclee if ((!ISREMOVABLE(un)) || (arg == NULL)) { 35893ccda647Slclee #elif defined(_SUNOS_VTOC_16) 35903ccda647Slclee if (arg == NULL) { 35913ccda647Slclee #endif 35923ccda647Slclee return (EINVAL); 35933ccda647Slclee } 35943ccda647Slclee 35953ccda647Slclee /* 35963ccda647Slclee * Read the mboot block, located at absolute block 0 on the target. 35973ccda647Slclee */ 35983ccda647Slclee buffer_size = sizeof (struct mboot); 35993ccda647Slclee 36003ccda647Slclee cmlb_dbg(CMLB_TRACE, un, 36013ccda647Slclee "cmlb_dkio_get_mboot: allocation size: 0x%x\n", buffer_size); 36023ccda647Slclee 36033ccda647Slclee mboot = kmem_zalloc(buffer_size, KM_SLEEP); 36043ccda647Slclee if ((rval = DK_TG_READ(un, mboot, 0, buffer_size)) == 0) { 36053ccda647Slclee if (ddi_copyout(mboot, (void *)arg, 36063ccda647Slclee sizeof (struct mboot), flag) != 0) { 36073ccda647Slclee rval = EFAULT; 36083ccda647Slclee } 36093ccda647Slclee } 36103ccda647Slclee kmem_free(mboot, buffer_size); 36113ccda647Slclee return (rval); 36123ccda647Slclee } 36133ccda647Slclee 36143ccda647Slclee 36153ccda647Slclee /* 36163ccda647Slclee * Function: cmlb_dkio_set_mboot 36173ccda647Slclee * 36183ccda647Slclee * Description: This routine is the driver entry point for handling user 36193ccda647Slclee * requests to validate and set the device master boot 36203ccda647Slclee * (DKIOCSMBOOT). 36213ccda647Slclee * 36223ccda647Slclee * Arguments: 36233ccda647Slclee * arg - pointer to user provided mboot structure used to set the 36243ccda647Slclee * master boot. 36253ccda647Slclee * flag - this argument is a pass through to ddi_copyxxx() 36263ccda647Slclee * directly from the mode argument of ioctl(). 36273ccda647Slclee * 36283ccda647Slclee * Return Code: 0 36293ccda647Slclee * EINVAL 36303ccda647Slclee * EFAULT 36313ccda647Slclee * ENXIO 36323ccda647Slclee */ 36333ccda647Slclee static int 36343ccda647Slclee cmlb_dkio_set_mboot(struct cmlb_lun *un, caddr_t arg, int flag) 36353ccda647Slclee { 36363ccda647Slclee struct mboot *mboot = NULL; 36373ccda647Slclee int rval; 36383ccda647Slclee ushort_t magic; 36393ccda647Slclee 36403ccda647Slclee 36413ccda647Slclee ASSERT(!mutex_owned(CMLB_MUTEX(un))); 36423ccda647Slclee 36433ccda647Slclee #if defined(_SUNOS_VTOC_8) 36443ccda647Slclee if (!ISREMOVABLE(un)) { 36453ccda647Slclee return (EINVAL); 36463ccda647Slclee } 36473ccda647Slclee #endif 36483ccda647Slclee 36493ccda647Slclee if (arg == NULL) { 36503ccda647Slclee return (EINVAL); 36513ccda647Slclee } 36523ccda647Slclee 36533ccda647Slclee mboot = kmem_zalloc(sizeof (struct mboot), KM_SLEEP); 36543ccda647Slclee 36553ccda647Slclee if (ddi_copyin((const void *)arg, mboot, 36563ccda647Slclee sizeof (struct mboot), flag) != 0) { 36573ccda647Slclee kmem_free(mboot, (size_t)(sizeof (struct mboot))); 36583ccda647Slclee return (EFAULT); 36593ccda647Slclee } 36603ccda647Slclee 36613ccda647Slclee /* Is this really a master boot record? */ 36623ccda647Slclee magic = LE_16(mboot->signature); 36633ccda647Slclee if (magic != MBB_MAGIC) { 36643ccda647Slclee kmem_free(mboot, (size_t)(sizeof (struct mboot))); 36653ccda647Slclee return (EINVAL); 36663ccda647Slclee } 36673ccda647Slclee 36683ccda647Slclee rval = DK_TG_WRITE(un, mboot, 0, un->un_sys_blocksize); 36693ccda647Slclee 36703ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 36713ccda647Slclee #if defined(__i386) || defined(__amd64) 36723ccda647Slclee if (rval == 0) { 36733ccda647Slclee /* 36743ccda647Slclee * mboot has been written successfully. 36753ccda647Slclee * update the fdisk and vtoc tables in memory 36763ccda647Slclee */ 36773ccda647Slclee rval = cmlb_update_fdisk_and_vtoc(un); 36783ccda647Slclee if ((un->un_f_geometry_is_valid == FALSE) || (rval != 0)) { 36793ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 36803ccda647Slclee kmem_free(mboot, (size_t)(sizeof (struct mboot))); 36813ccda647Slclee return (rval); 36823ccda647Slclee } 36833ccda647Slclee } 36843ccda647Slclee #else 36853ccda647Slclee if (rval == 0) { 36863ccda647Slclee /* 36873ccda647Slclee * mboot has been written successfully. 36883ccda647Slclee * set up the default geometry and VTOC 36893ccda647Slclee */ 36903ccda647Slclee if (un->un_blockcount <= DK_MAX_BLOCKS) 36913ccda647Slclee cmlb_setup_default_geometry(un); 36923ccda647Slclee } 36933ccda647Slclee #endif 36943ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 36953ccda647Slclee kmem_free(mboot, (size_t)(sizeof (struct mboot))); 36963ccda647Slclee return (rval); 36973ccda647Slclee } 36983ccda647Slclee 36993ccda647Slclee 37003ccda647Slclee /* 37013ccda647Slclee * Function: cmlb_setup_default_geometry 37023ccda647Slclee * 37033ccda647Slclee * Description: This local utility routine sets the default geometry as part of 37043ccda647Slclee * setting the device mboot. 37053ccda647Slclee * 37063ccda647Slclee * Arguments: un - driver soft state (unit) structure 37073ccda647Slclee * 37083ccda647Slclee * Note: This may be redundant with cmlb_build_default_label. 37093ccda647Slclee */ 37103ccda647Slclee static void 37113ccda647Slclee cmlb_setup_default_geometry(struct cmlb_lun *un) 37123ccda647Slclee { 37133ccda647Slclee struct cmlb_geom pgeom; 37143ccda647Slclee struct cmlb_geom *pgeomp = &pgeom; 37153ccda647Slclee int ret; 37163ccda647Slclee int geom_base_cap = 1; 37173ccda647Slclee 37183ccda647Slclee 37193ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 37203ccda647Slclee 37213ccda647Slclee /* zero out the soft state geometry and partition table. */ 37223ccda647Slclee bzero(&un->un_g, sizeof (struct dk_geom)); 37233ccda647Slclee bzero(&un->un_vtoc, sizeof (struct dk_vtoc)); 37243ccda647Slclee bzero(un->un_map, NDKMAP * (sizeof (struct dk_map))); 37253ccda647Slclee 37263ccda647Slclee /* 37273ccda647Slclee * For the rpm, we use the minimum for the disk. 37283ccda647Slclee * For the head, cyl and number of sector per track, 37293ccda647Slclee * if the capacity <= 1GB, head = 64, sect = 32. 37303ccda647Slclee * else head = 255, sect 63 37313ccda647Slclee * Note: the capacity should be equal to C*H*S values. 37323ccda647Slclee * This will cause some truncation of size due to 37333ccda647Slclee * round off errors. For CD-ROMs, this truncation can 37343ccda647Slclee * have adverse side effects, so returning ncyl and 37353ccda647Slclee * nhead as 1. The nsect will overflow for most of 37363ccda647Slclee * CD-ROMs as nsect is of type ushort. 37373ccda647Slclee */ 37383ccda647Slclee if (un->un_alter_behavior & CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8) { 37393ccda647Slclee /* 37403ccda647Slclee * newfs currently can not handle 255 ntracks for SPARC 37413ccda647Slclee * so get the geometry from target driver instead of coming up 37423ccda647Slclee * with one based on capacity. 37433ccda647Slclee */ 37443ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 37453ccda647Slclee ret = DK_TG_GETPHYGEOM(un, pgeomp); 37463ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 37473ccda647Slclee 37483ccda647Slclee if (ret == 0) { 37493ccda647Slclee geom_base_cap = 0; 37503ccda647Slclee } else { 37513ccda647Slclee cmlb_dbg(CMLB_ERROR, un, 37523ccda647Slclee "cmlb_setup_default_geometry: " 37533ccda647Slclee "tg_getphygeom failed %d\n", ret); 37543ccda647Slclee 37553ccda647Slclee /* do default setting, geometry based on capacity */ 37563ccda647Slclee } 37573ccda647Slclee } 37583ccda647Slclee 37593ccda647Slclee if (geom_base_cap) { 37603ccda647Slclee if (ISCD(un)) { 37613ccda647Slclee un->un_g.dkg_ncyl = 1; 37623ccda647Slclee un->un_g.dkg_nhead = 1; 37633ccda647Slclee un->un_g.dkg_nsect = un->un_blockcount; 37643ccda647Slclee } else if (un->un_blockcount <= 0x1000) { 37653ccda647Slclee /* Needed for unlabeled SCSI floppies. */ 37663ccda647Slclee un->un_g.dkg_nhead = 2; 37673ccda647Slclee un->un_g.dkg_ncyl = 80; 37683ccda647Slclee un->un_g.dkg_pcyl = 80; 37693ccda647Slclee un->un_g.dkg_nsect = un->un_blockcount / (2 * 80); 37703ccda647Slclee } else if (un->un_blockcount <= 0x200000) { 37713ccda647Slclee un->un_g.dkg_nhead = 64; 37723ccda647Slclee un->un_g.dkg_nsect = 32; 37733ccda647Slclee un->un_g.dkg_ncyl = un->un_blockcount / (64 * 32); 37743ccda647Slclee } else { 37753ccda647Slclee un->un_g.dkg_nhead = 255; 37763ccda647Slclee un->un_g.dkg_nsect = 63; 37773ccda647Slclee un->un_g.dkg_ncyl = un->un_blockcount / (255 * 63); 37783ccda647Slclee } 37793ccda647Slclee 37803ccda647Slclee un->un_g.dkg_acyl = 0; 37813ccda647Slclee un->un_g.dkg_bcyl = 0; 37823ccda647Slclee un->un_g.dkg_intrlv = 1; 37833ccda647Slclee un->un_g.dkg_rpm = 200; 37843ccda647Slclee if (un->un_g.dkg_pcyl == 0) 37853ccda647Slclee un->un_g.dkg_pcyl = un->un_g.dkg_ncyl + 37863ccda647Slclee un->un_g.dkg_acyl; 37873ccda647Slclee } else { 37883ccda647Slclee un->un_g.dkg_ncyl = (short)pgeomp->g_ncyl; 37893ccda647Slclee un->un_g.dkg_acyl = pgeomp->g_acyl; 37903ccda647Slclee un->un_g.dkg_nhead = pgeomp->g_nhead; 37913ccda647Slclee un->un_g.dkg_nsect = pgeomp->g_nsect; 37923ccda647Slclee un->un_g.dkg_intrlv = pgeomp->g_intrlv; 37933ccda647Slclee un->un_g.dkg_rpm = pgeomp->g_rpm; 37943ccda647Slclee un->un_g.dkg_pcyl = un->un_g.dkg_ncyl + un->un_g.dkg_acyl; 37953ccda647Slclee } 37963ccda647Slclee 37973ccda647Slclee un->un_g.dkg_read_reinstruct = 0; 37983ccda647Slclee un->un_g.dkg_write_reinstruct = 0; 37993ccda647Slclee un->un_solaris_size = un->un_g.dkg_ncyl * 38003ccda647Slclee un->un_g.dkg_nhead * un->un_g.dkg_nsect; 38013ccda647Slclee 38023ccda647Slclee un->un_map['a'-'a'].dkl_cylno = 0; 38033ccda647Slclee un->un_map['a'-'a'].dkl_nblk = un->un_solaris_size; 38043ccda647Slclee 38053ccda647Slclee un->un_map['c'-'a'].dkl_cylno = 0; 38063ccda647Slclee un->un_map['c'-'a'].dkl_nblk = un->un_solaris_size; 38073ccda647Slclee 38083ccda647Slclee un->un_vtoc.v_part[2].p_tag = V_BACKUP; 38093ccda647Slclee un->un_vtoc.v_part[2].p_flag = V_UNMNT; 38103ccda647Slclee un->un_vtoc.v_nparts = V_NUMPAR; 38113ccda647Slclee un->un_vtoc.v_version = V_VERSION; 38123ccda647Slclee (void) sprintf((char *)un->un_asciilabel, "DEFAULT cyl %d alt %d" 38133ccda647Slclee " hd %d sec %d", un->un_g.dkg_ncyl, un->un_g.dkg_acyl, 38143ccda647Slclee un->un_g.dkg_nhead, un->un_g.dkg_nsect); 38153ccda647Slclee 38163ccda647Slclee un->un_f_geometry_is_valid = FALSE; 38173ccda647Slclee } 38183ccda647Slclee 38193ccda647Slclee 38203ccda647Slclee #if defined(__i386) || defined(__amd64) 38213ccda647Slclee /* 38223ccda647Slclee * Function: cmlb_update_fdisk_and_vtoc 38233ccda647Slclee * 38243ccda647Slclee * Description: This local utility routine updates the device fdisk and vtoc 38253ccda647Slclee * as part of setting the device mboot. 38263ccda647Slclee * 38273ccda647Slclee * Arguments: un - driver soft state (unit) structure 38283ccda647Slclee * 38293ccda647Slclee * Return Code: 0 for success or errno-type return code. 38303ccda647Slclee * 38313ccda647Slclee * Note:x86: This looks like a duplicate of cmlb_validate_geometry(), but 38323ccda647Slclee * these did exist separately in x86 sd.c. 38333ccda647Slclee */ 38343ccda647Slclee static int 38353ccda647Slclee cmlb_update_fdisk_and_vtoc(struct cmlb_lun *un) 38363ccda647Slclee { 38373ccda647Slclee int count; 38383ccda647Slclee int label_rc = 0; 38393ccda647Slclee int fdisk_rval; 38403ccda647Slclee diskaddr_t capacity; 38413ccda647Slclee 38423ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 38433ccda647Slclee 38443ccda647Slclee if (cmlb_check_update_blockcount(un) != 0) 38453ccda647Slclee return (EINVAL); 38463ccda647Slclee 38473ccda647Slclee #if defined(_SUNOS_VTOC_16) 38483ccda647Slclee /* 38493ccda647Slclee * Set up the "whole disk" fdisk partition; this should always 38503ccda647Slclee * exist, regardless of whether the disk contains an fdisk table 38513ccda647Slclee * or vtoc. 38523ccda647Slclee */ 38533ccda647Slclee un->un_map[P0_RAW_DISK].dkl_cylno = 0; 38543ccda647Slclee un->un_map[P0_RAW_DISK].dkl_nblk = un->un_blockcount; 38553ccda647Slclee #endif /* defined(_SUNOS_VTOC_16) */ 38563ccda647Slclee 38573ccda647Slclee /* 38583ccda647Slclee * copy the lbasize and capacity so that if they're 38593ccda647Slclee * reset while we're not holding the CMLB_MUTEX(un), we will 38603ccda647Slclee * continue to use valid values after the CMLB_MUTEX(un) is 38613ccda647Slclee * reacquired. 38623ccda647Slclee */ 38633ccda647Slclee capacity = un->un_blockcount; 38643ccda647Slclee 38653ccda647Slclee /* 38663ccda647Slclee * refresh the logical and physical geometry caches. 38673ccda647Slclee * (data from mode sense format/rigid disk geometry pages, 38683ccda647Slclee * and scsi_ifgetcap("geometry"). 38693ccda647Slclee */ 38703ccda647Slclee cmlb_resync_geom_caches(un, capacity); 38713ccda647Slclee 38723ccda647Slclee /* 38733ccda647Slclee * Only DIRECT ACCESS devices will have Sun labels. 38743ccda647Slclee * CD's supposedly have a Sun label, too 38753ccda647Slclee */ 38763ccda647Slclee if (un->un_device_type == DTYPE_DIRECT || ISREMOVABLE(un)) { 38773ccda647Slclee fdisk_rval = cmlb_read_fdisk(un, capacity); 38783ccda647Slclee if (fdisk_rval != 0) { 38793ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 38803ccda647Slclee return (fdisk_rval); 38813ccda647Slclee } 38823ccda647Slclee 38833ccda647Slclee if (un->un_solaris_size <= DK_LABEL_LOC) { 38843ccda647Slclee /* 38853ccda647Slclee * Found fdisk table but no Solaris partition entry, 38863ccda647Slclee * so don't call cmlb_uselabel() and don't create 38873ccda647Slclee * a default label. 38883ccda647Slclee */ 38893ccda647Slclee label_rc = 0; 38903ccda647Slclee un->un_f_geometry_is_valid = TRUE; 38913ccda647Slclee goto no_solaris_partition; 38923ccda647Slclee } 38933ccda647Slclee } else if (capacity < 0) { 38943ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 38953ccda647Slclee return (EINVAL); 38963ccda647Slclee } 38973ccda647Slclee 38983ccda647Slclee /* 38993ccda647Slclee * For Removable media We reach here if we have found a 39003ccda647Slclee * SOLARIS PARTITION. 39013ccda647Slclee * If un_f_geometry_is_valid is FALSE it indicates that the SOLARIS 39023ccda647Slclee * PARTITION has changed from the previous one, hence we will setup a 39033ccda647Slclee * default VTOC in this case. 39043ccda647Slclee */ 39053ccda647Slclee if (un->un_f_geometry_is_valid == FALSE) { 39063ccda647Slclee /* if we get here it is writable */ 39073ccda647Slclee /* we are called from SMBOOT, and after a write of fdisk */ 39083ccda647Slclee cmlb_build_default_label(un); 39093ccda647Slclee label_rc = 0; 39103ccda647Slclee } 39113ccda647Slclee 39123ccda647Slclee no_solaris_partition: 39133ccda647Slclee 39143ccda647Slclee #if defined(_SUNOS_VTOC_16) 39153ccda647Slclee /* 39163ccda647Slclee * If we have valid geometry, set up the remaining fdisk partitions. 39173ccda647Slclee * Note that dkl_cylno is not used for the fdisk map entries, so 39183ccda647Slclee * we set it to an entirely bogus value. 39193ccda647Slclee */ 39203ccda647Slclee for (count = 0; count < FD_NUMPART; count++) { 39213ccda647Slclee un->un_map[FDISK_P1 + count].dkl_cylno = -1; 39223ccda647Slclee un->un_map[FDISK_P1 + count].dkl_nblk = 39233ccda647Slclee un->un_fmap[count].fmap_nblk; 39243ccda647Slclee un->un_offset[FDISK_P1 + count] = 39253ccda647Slclee un->un_fmap[count].fmap_start; 39263ccda647Slclee } 39273ccda647Slclee #endif 39283ccda647Slclee 39293ccda647Slclee for (count = 0; count < NDKMAP; count++) { 39303ccda647Slclee #if defined(_SUNOS_VTOC_8) 39313ccda647Slclee struct dk_map *lp = &un->un_map[count]; 39323ccda647Slclee un->un_offset[count] = 39333ccda647Slclee un->un_g.dkg_nhead * un->un_g.dkg_nsect * lp->dkl_cylno; 39343ccda647Slclee #elif defined(_SUNOS_VTOC_16) 39353ccda647Slclee struct dkl_partition *vp = &un->un_vtoc.v_part[count]; 39363ccda647Slclee un->un_offset[count] = vp->p_start + un->un_solaris_offset; 39373ccda647Slclee #else 39383ccda647Slclee #error "No VTOC format defined." 39393ccda647Slclee #endif 39403ccda647Slclee } 39413ccda647Slclee 39423ccda647Slclee ASSERT(mutex_owned(CMLB_MUTEX(un))); 39433ccda647Slclee return (label_rc); 39443ccda647Slclee } 39453ccda647Slclee #endif 39463ccda647Slclee 39473ccda647Slclee #if defined(__i386) || defined(__amd64) 39483ccda647Slclee static int 39493ccda647Slclee cmlb_dkio_get_virtgeom(struct cmlb_lun *un, caddr_t arg, int flag) 39503ccda647Slclee { 39513ccda647Slclee int err = 0; 39523ccda647Slclee 39533ccda647Slclee /* Return the driver's notion of the media's logical geometry */ 39543ccda647Slclee struct dk_geom disk_geom; 39553ccda647Slclee struct dk_geom *dkgp = &disk_geom; 39563ccda647Slclee 39573ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 39583ccda647Slclee /* 39593ccda647Slclee * If there is no HBA geometry available, or 39603ccda647Slclee * if the HBA returned us something that doesn't 39613ccda647Slclee * really fit into an Int 13/function 8 geometry 39623ccda647Slclee * result, just fail the ioctl. See PSARC 1998/313. 39633ccda647Slclee */ 39643ccda647Slclee if (un->un_lgeom.g_nhead == 0 || 39653ccda647Slclee un->un_lgeom.g_nsect == 0 || 39663ccda647Slclee un->un_lgeom.g_ncyl > 1024) { 39673ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 39683ccda647Slclee err = EINVAL; 39693ccda647Slclee } else { 39703ccda647Slclee dkgp->dkg_ncyl = un->un_lgeom.g_ncyl; 39713ccda647Slclee dkgp->dkg_acyl = un->un_lgeom.g_acyl; 39723ccda647Slclee dkgp->dkg_pcyl = dkgp->dkg_ncyl + dkgp->dkg_acyl; 39733ccda647Slclee dkgp->dkg_nhead = un->un_lgeom.g_nhead; 39743ccda647Slclee dkgp->dkg_nsect = un->un_lgeom.g_nsect; 39753ccda647Slclee 39763ccda647Slclee if (ddi_copyout(dkgp, (void *)arg, 39773ccda647Slclee sizeof (struct dk_geom), flag)) { 39783ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 39793ccda647Slclee err = EFAULT; 39803ccda647Slclee } else { 39813ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 39823ccda647Slclee err = 0; 39833ccda647Slclee } 39843ccda647Slclee } 39853ccda647Slclee return (err); 39863ccda647Slclee } 39873ccda647Slclee #endif 39883ccda647Slclee 39893ccda647Slclee #if defined(__i386) || defined(__amd64) 39903ccda647Slclee static int 39913ccda647Slclee cmlb_dkio_get_phygeom(struct cmlb_lun *un, caddr_t arg, int flag) 39923ccda647Slclee { 39933ccda647Slclee int err = 0; 39943ccda647Slclee 39953ccda647Slclee 39963ccda647Slclee /* Return the driver's notion of the media physical geometry */ 39973ccda647Slclee struct dk_geom disk_geom; 39983ccda647Slclee struct dk_geom *dkgp = &disk_geom; 39993ccda647Slclee 40003ccda647Slclee mutex_enter(CMLB_MUTEX(un)); 40013ccda647Slclee 40023ccda647Slclee if (un->un_g.dkg_nhead != 0 && 40033ccda647Slclee un->un_g.dkg_nsect != 0) { 40043ccda647Slclee /* 40053ccda647Slclee * We succeeded in getting a geometry, but 40063ccda647Slclee * right now it is being reported as just the 40073ccda647Slclee * Solaris fdisk partition, just like for 40083ccda647Slclee * DKIOCGGEOM. We need to change that to be 40093ccda647Slclee * correct for the entire disk now. 40103ccda647Slclee */ 40113ccda647Slclee bcopy(&un->un_g, dkgp, sizeof (*dkgp)); 40123ccda647Slclee dkgp->dkg_acyl = 0; 40133ccda647Slclee dkgp->dkg_ncyl = un->un_blockcount / 40143ccda647Slclee (dkgp->dkg_nhead * dkgp->dkg_nsect); 40153ccda647Slclee } else { 40163ccda647Slclee bzero(dkgp, sizeof (struct dk_geom)); 40173ccda647Slclee /* 40183ccda647Slclee * This disk does not have a Solaris VTOC 40193ccda647Slclee * so we must present a physical geometry 40203ccda647Slclee * that will remain consistent regardless 40213ccda647Slclee * of how the disk is used. This will ensure 40223ccda647Slclee * that the geometry does not change regardless 40233ccda647Slclee * of the fdisk partition type (ie. EFI, FAT32, 40243ccda647Slclee * Solaris, etc). 40253ccda647Slclee */ 40263ccda647Slclee if (ISCD(un)) { 40273ccda647Slclee dkgp->dkg_nhead = un->un_pgeom.g_nhead; 40283ccda647Slclee dkgp->dkg_nsect = un->un_pgeom.g_nsect; 40293ccda647Slclee dkgp->dkg_ncyl = un->un_pgeom.g_ncyl; 40303ccda647Slclee dkgp->dkg_acyl = un->un_pgeom.g_acyl; 40313ccda647Slclee } else { 40323ccda647Slclee cmlb_convert_geometry(un->un_blockcount, dkgp); 40333ccda647Slclee dkgp->dkg_acyl = 0; 40343ccda647Slclee dkgp->dkg_ncyl = un->un_blockcount / 40353ccda647Slclee (dkgp->dkg_nhead * dkgp->dkg_nsect); 40363ccda647Slclee } 40373ccda647Slclee } 40383ccda647Slclee dkgp->dkg_pcyl = dkgp->dkg_ncyl + dkgp->dkg_acyl; 40393ccda647Slclee 40403ccda647Slclee if (ddi_copyout(dkgp, (void *)arg, 40413ccda647Slclee sizeof (struct dk_geom), flag)) { 40423ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 40433ccda647Slclee err = EFAULT; 40443ccda647Slclee } else { 40453ccda647Slclee mutex_exit(CMLB_MUTEX(un)); 40463ccda647Slclee err = 0; 40473ccda647Slclee } 40483ccda647Slclee return (err); 40493ccda647Slclee } 40503ccda647Slclee #endif 40513ccda647Slclee 40523ccda647Slclee #if defined(__i386) || defined(__amd64) 40533ccda647Slclee static int 40543ccda647Slclee cmlb_dkio_partinfo(struct cmlb_lun *un, dev_t dev, caddr_t arg, int flag) 40553ccda647Slclee { 40563ccda647Slclee int err = 0; 40573ccda647Slclee 40583ccda647Slclee /* 40593ccda647Slclee * Return parameters describing the selected disk slice. 40603ccda647Slclee * Note: this ioctl is for the intel platform only 40613ccda647Slclee */ 40623ccda647Slclee int part; 40633ccda647Slclee 40643ccda647Slclee part = CMLBPART(dev); 40653ccda647Slclee 40663ccda647Slclee /* don't check un_solaris_size for pN */ 40673ccda647Slclee if (part < P0_RAW_DISK && un->un_solaris_size == 0) { 40683ccda647Slclee err = EIO; 40693ccda647Slclee } else { 40703ccda647Slclee struct part_info p; 40713ccda647Slclee 40723ccda647Slclee p.p_start = (daddr_t)un->un_offset[part]; 40733ccda647Slclee p.p_length = (int)un->un_map[part].dkl_nblk; 40743ccda647Slclee #ifdef _MULTI_DATAMODEL 40753ccda647Slclee switch (ddi_model_convert_from(flag & FMODELS)) { 40763ccda647Slclee case DDI_MODEL_ILP32: 40773ccda647Slclee { 40783ccda647Slclee struct part_info32 p32; 40793ccda647Slclee 40803ccda647Slclee p32.p_start = (daddr32_t)p.p_start; 40813ccda647Slclee p32.p_length = p.p_length; 40823ccda647Slclee if (ddi_copyout(&p32, (void *)arg, 40833ccda647Slclee sizeof (p32), flag)) 40843ccda647Slclee err = EFAULT; 40853ccda647Slclee break; 40863ccda647Slclee } 40873ccda647Slclee 40883ccda647Slclee case DDI_MODEL_NONE: 40893ccda647Slclee { 40903ccda647Slclee if (ddi_copyout(&p, (void *)arg, sizeof (p), 40913ccda647Slclee flag)) 40923ccda647Slclee err = EFAULT; 40933ccda647Slclee break; 40943ccda647Slclee } 40953ccda647Slclee } 40963ccda647Slclee #else /* ! _MULTI_DATAMODEL */ 40973ccda647Slclee if (ddi_copyout(&p, (void *)arg, sizeof (p), flag)) 40983ccda647Slclee err = EFAULT; 40993ccda647Slclee #endif /* _MULTI_DATAMODEL */ 41003ccda647Slclee } 41013ccda647Slclee return (err); 41023ccda647Slclee } 41033ccda647Slclee #endif 4104