/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include "volume_string.h" #include "volume_devconfig.h" #include "volume_error.h" #include "volume_dlist.h" #include "volume_output.h" #include "layout_device_cache.h" #include "layout_device_util.h" #include "layout_discovery.h" #include "layout_dlist_util.h" #include "layout_messages.h" #include "layout_request.h" #include "layout_slice.h" #define _LAYOUT_SLICE_C static int pick_from_best_hba_and_disk( dlist_t *list, dlist_t *used, dm_descriptor_t *chosen); static int slice_has_same_disk_geom( dm_descriptor_t slice, dlist_t *used, boolean_t *bool); static int slice_on_unique_disk( dm_descriptor_t slice, dlist_t *used, dlist_t *othervols, boolean_t *bool); static int slice_on_unique_hba( dm_descriptor_t slice, dlist_t *used, dlist_t *othervols, boolean_t *bool); static int slice_on_similar_bus( dm_descriptor_t slice, dlist_t *used, boolean_t *bool); static int slice_has_n_paths( dm_descriptor_t slice, uint16_t npaths, boolean_t *bool); static int compare_modslice_names( void *obj1, void *obj2); static int compare_string_to_modslice_name( void *str, void *modslice); static int create_new_slice( dm_descriptor_t oslice, uint64_t nbytes, boolean_t add_extra_cyl, devconfig_t **nslice); static int create_modified_slice( dm_descriptor_t oslice, char *oname, uint32_t oindex, uint64_t ostart, uint64_t osize, uint64_t bps, char *nname, uint32_t nindex, uint64_t nsize, devconfig_t **nslice); /* * list to track resized slices */ static dlist_t *_modified_slices = NULL; /* * struct to track used slices and their disks... */ typedef struct { char *slicename; dm_descriptor_t disk; } usedslice_t; /* * list to of usedslice_t to track slices that have been * used for any reason. */ static dlist_t *_used_slices = NULL; static int add_used_slice_list_entry(char *slicename, dm_descriptor_t disk); static int compare_usedslice_name_to_string(void *obj1, void *obj2); static void free_used_slice(void *obj); /* * list of slices reserved to be used for explicit * volume requests */ static dlist_t *_rsvd_slices = NULL; /* * list of slices needing to be removed (zeroed out) prior to * applying any metassist modifications to the system. */ static dlist_t *_rmvd_slices = NULL; /* * FUNCTION: choose_slice( * uint64_t nbytes, * uint16_t npaths, * dlist_t *slices, * dlist_t *used, * dlist_t *used_hbas, * dlist_t *used_disks, * boolean_t unused_disk, * boolean_t nbytes_is_min, * boolean_t add_extra_cyl, * devconfig_t **chosen) * * INPUT: nbytes - required size * npaths - minimum required data paths * *slices - slices from which to choose * *used - slices used by the volume under construction * *used_hbas - hbas used by other volumes relevant to * the volume under construction * *used_disks - disks used by other volumes relevant to * the volume under construction * unused_disk - if true, the chosen slice must be from an * unused disk * nbytes_is_min - if true, the chosen slice may be larger than * nbytes. * add_extra_cyl - passed to create_new_slice, see comment there. * **chosen - pointer to hold the chosen slice * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Choosen a slice from the list of those available. * * Of those available, choose in order of preference: * * - one on a unique HBA and disk that is of the exact size * - one on a unique HBA and disk that is of sufficient size * - one on unique HBA that is of the exact size * - one on unique HBA that is of sufficient size * - one on unique disk that is of the exact size * - one on unique disk that is of sufficient size * - one on any HBA that is of exact size * - one on any HBA that is of sufficient size * - one on a unique HBA that is the largest size * - one on a unique disk that is the largest size * - one on any HBA that is the largest size * * The function scans the available slices and builds lists of * those meeting the criteria above. After the scan is complete, * the lists are examined in order, the first non-empty list is * chosen. If there are several possibilities in the chosen list, * see if it is possible select the slice from the least used HBA * and/or disk. * * If nbytes_is_min is true, the returned slice will be * at least nbytes in capacity. * * If unused_disk is true, the returned slice will be from * a disk with no other known uses. */ int choose_slice( uint64_t nbytes, uint16_t npaths, dlist_t *slices, dlist_t *used, dlist_t *used_hbas, dlist_t *used_disks, boolean_t unused_disk, boolean_t nbytes_is_min, boolean_t add_extra_cyl, devconfig_t **chosen) { dlist_t *iter = NULL; dm_descriptor_t slice = NULL; boolean_t resize = B_FALSE; boolean_t verbose = (get_max_verbosity() == OUTPUT_VERBOSE); int error = 0; /* * indexes into the list array: * i -> unique controller 0 = yes, 1 = no * j -> same bus type 0 = yes, 1 = no * k -> unique disk 0 = yes, 1 = no * l -> same disk geom 0 = yes, 1 = no * m -> size 0 == exact, 1 = larger, 2 = any */ int i, j, k, l, m; dlist_t *list[2][2][2][2][3]; /* output string arrays for each array dimension and index */ char *uniqhba[2]; char *samebus[2]; char *uniqdisk[2]; char *samegeom[2]; char *sizes[3]; /* other output strings */ char *look_msg = NULL; char *npaths_msg = NULL; char *samegeom_msg = NULL; char *samebus_msg = NULL; char *uniqhba_msg = NULL; char *uniqdisk_msg = NULL; char *exact_msg = NULL; char *larger_msg = NULL; char *smaller_msg = NULL; char *insuff_paths = NULL; char *too_small = NULL; char *useddisk_msg = NULL; if (verbose == B_TRUE) { /* only initialize the output strings if needed */ /* BEGIN CSTYLED */ look_msg = gettext( "\tlooking at slice: %s (%s)\n"); npaths_msg = gettext( "\t has the requested number of data paths (%d)\n"); samegeom_msg = gettext( "\t has the same disk geometry relative to used slices\n"); samebus_msg = gettext( "\t on a similar I/O bus/HBA relative to used slices\n"); uniqhba_msg = gettext( "\t on a unique HBA relative to used slices\n"); uniqdisk_msg = gettext( "\t on a unique disk relative to used slices\n"); exact_msg = gettext( "\t the exact size necessary\n"); larger_msg = gettext( "\t larger than necessary\n"); smaller_msg = gettext( "\t smaller than necessary\n"); insuff_paths = gettext( "\t rejected: not enough paths (%d requested)\n"); too_small = gettext( "\t rejected: too small\n"); useddisk_msg = gettext( "\t rejected: on a disk with other volume component(s)\n"); uniqhba[0] = gettext("unique HBA"); uniqhba[1] = gettext("non unique HBA"); samebus[0] = gettext("same bus type"); samebus[1] = gettext("different bus type"); uniqdisk[0] = gettext("unique disk"); uniqdisk[1] = gettext("non unique disk"); samegeom[0] = gettext("same geometry"); samegeom[1] = gettext("different geometry"); sizes[0] = gettext("an exact size slice"); sizes[1] = gettext("a larger slice"); sizes[2] = gettext("a smaller slice"); /* END CSTYLED */ } /* init list array pointers */ (void) memset(list, 0, 2*2*2*2*3 * sizeof (dlist_t *)); for (iter = slices; (iter != NULL) && (error == 0); iter = iter->next) { dm_descriptor_t slice = (uintptr_t)iter->obj; uint64_t snbytes = 0; boolean_t uniqdisk = B_FALSE; boolean_t uniqhba = B_FALSE; boolean_t samegeom = B_FALSE; boolean_t samebus = B_FALSE; boolean_t paths = B_FALSE; dlist_t *item = NULL; ((error = slice_get_size(slice, &snbytes)) != 0) || (error = slice_has_n_paths(slice, npaths, &paths)) || (error = slice_on_unique_hba(slice, used, used_hbas, &uniqhba)) || (error = slice_on_unique_disk(slice, used, used_disks, &uniqdisk)) || (error = slice_on_similar_bus(slice, used, &samebus)) || (error = slice_has_same_disk_geom(slice, used, &samegeom)); if (error != 0) { continue; } if (verbose == B_TRUE) { char *sname = NULL; char *sizestr = NULL; (void) get_display_name(slice, &sname); if (bytes_to_sizestr(snbytes, &sizestr, universal_units, B_FALSE) == 0) { oprintf(OUTPUT_VERBOSE, look_msg, sname, sizestr); free(sizestr); } } if (npaths > 1) { if (paths && verbose) { /* specifically asked for more paths, ... */ oprintf(OUTPUT_VERBOSE, npaths_msg); } } else if (npaths == 1) { /* every disk has at least 1 path */ paths = B_TRUE; } if (verbose == B_TRUE) { if (uniqhba) { oprintf(OUTPUT_VERBOSE, uniqhba_msg); } if (uniqdisk) { oprintf(OUTPUT_VERBOSE, uniqdisk_msg); } if (used != NULL) { if (samebus) { oprintf(OUTPUT_VERBOSE, samebus_msg); } if (samegeom) { oprintf(OUTPUT_VERBOSE, samegeom_msg); } } if (snbytes > nbytes) { oprintf(OUTPUT_VERBOSE, larger_msg); } else if (snbytes == nbytes) { oprintf(OUTPUT_VERBOSE, exact_msg); } else { oprintf(OUTPUT_VERBOSE, smaller_msg); } } /* filter slices not meeting minimum criteria */ if (nbytes_is_min && (snbytes < nbytes)) { /* not large enough */ if (verbose == B_TRUE) { oprintf(OUTPUT_VERBOSE, too_small); } continue; } if (paths == B_FALSE) { /* not connected thru enough paths */ if (verbose == B_TRUE) { oprintf(OUTPUT_VERBOSE, insuff_paths, npaths); } continue; } if (uniqdisk != B_TRUE && unused_disk == TRUE) { /* not on a unique disk */ if (verbose == B_TRUE) { oprintf(OUTPUT_VERBOSE, useddisk_msg); } continue; } /* map slice properties into array indices */ i = (uniqhba ? 0 : 1); j = (samebus ? 0 : 1); k = (uniqdisk ? 0 : 1); l = (samegeom ? 0 : 1); m = (snbytes == nbytes ? 0 : (snbytes > nbytes ? 1 : 2)); /* * insert slice into the list array using derived indices. * NB: lists of slices larger than necessary are kept in * ascending order (results in best fit, not worst fit) */ if ((item = dlist_new_item((void*)(uintptr_t)slice)) == NULL) { error = ENOMEM; } else { list[i][j][k][l][m] = dlist_insert_ordered( item, list[i][j][k][l][m], (m == 1 ? ASCENDING : DESCENDING), compare_slice_sizes); } } /* * Select a slice from one of the lists. * * The list with the combination of lowest indices * is the most preferred list... in rough order: * * one on a unique HBA and disk that is of the exact size * one on a unique HBA and disk that is of sufficient size (resize) * one on unique HBA that is of the exact size * one on unique HBA that is of sufficient size (resize) * one on unique disk that is of the exact size * one on unique disk that is of sufficient size (resize) * one on any HBA that is of exact size * one on any HBA that is of sufficient size (resize) * one on a unique HBA that is the largest size * one on a unique disk that is the largest size * one on any HBA that is the largest size */ slice = NULL; for (i = 0; i < 2; i++) { for (j = 0; j < 2; j++) { for (k = 0; k < 2; k++) { for (l = 0; l < 2; l++) { for (m = 0; m < 3; m++) { if (list[i][j][k][l][m] != NULL) { /* pick least used slice from this list */ error = pick_from_best_hba_and_disk( list[i][j][k][l][m], used, &slice); resize = (m == 1); /* terminate all loops */ goto stop; } } } } } } stop: /* * Slice chosen, is a resize necessary? */ if ((error == 0) && (slice != NULL)) { if (error == 0) { if (verbose == B_TRUE) { uint64_t snbytes = 0; char *sname = NULL; char *sizestr = NULL; (void) get_display_name(slice, &sname); (void) slice_get_size(slice, &snbytes); if (bytes_to_sizestr(snbytes, &sizestr, universal_units, B_FALSE) == 0) { oprintf(OUTPUT_VERBOSE, gettext(" selected %s (%s)\n" " it is %s on a\n" " %s (%s) and a\n" " %s (%s)\n"), sname, sizestr, sizes[m], uniqhba[i], samebus[j], uniqdisk[k], samegeom[l]); free(sizestr); } } if (resize) { if (verbose == B_TRUE) { oprintf(OUTPUT_VERBOSE, gettext(" it has excess space, " "resizing...\n")); } error = create_new_slice(slice, nbytes, add_extra_cyl, chosen); if ((error == 0) && (*chosen != NULL) && verbose) { oprintf(OUTPUT_VERBOSE, gettext(" exactly resized\n")); } } if (error == 0) { /* either no resize was necessary or the resize failed */ if (*chosen == NULL) { /* * use the original slice as it is. * Make a devconfig_t for it. */ error = create_devconfig_for_slice(slice, chosen); } } } } else if (slice == NULL) { oprintf(OUTPUT_DEBUG, gettext(" no possible slice\n")); } for (i = 0; i < 2; i++) { for (j = 0; j < 2; j++) { for (k = 0; k < 2; k++) { for (l = 0; l < 2; l++) { for (m = 0; m < 3; m++) { if (list[i][j][k][l][m] != NULL) { dlist_free_items(list[i][j][k][l][m], NULL); } } } } } } return (error); } /* * FUNCTION: create_devconfig_for_slice(dm_descriptor_t slice, * devconfig_t **nslice) * * INPUT: slice - dm_descriptor_t handle to an existing slice * nslice - devconfig_t pointer to hold the new slice * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Creates a devconfig_t struct representation of the input * slice dm_descriptor. */ int create_devconfig_for_slice( dm_descriptor_t slice, devconfig_t **nslice) { uint64_t nbytes = 0; uint64_t nblks = 0; uint64_t stblk = 0; uint32_t index = 0; char *name = NULL; int error = 0; ((error = get_display_name(slice, &name)) != 0) || (error = slice_get_size(slice, &nbytes)) || (error = slice_get_size_in_blocks(slice, &nblks)) || (error = slice_get_start_block(slice, &stblk)) || (error = slice_get_index(slice, &index)); if (error != 0) { return (error); } ((error = new_devconfig(nslice, TYPE_SLICE)) != 0) || (error = devconfig_set_name(*nslice, name)) || (error = devconfig_set_slice_index(*nslice, index)) || (error = devconfig_set_slice_start_block(*nslice, stblk)) || (error = devconfig_set_size_in_blocks(*nslice, nblks)) || (error = devconfig_set_size(*nslice, nbytes)); if (error != 0) { free_devconfig(*nslice); } return (error); } /* * FUNCTION: make_slicename_for_disk_and_index(dm_descriptor_t disk, * uint32_t index, char **slicename) * * INPUT: disk - a dm_descriptor_t disk handle * index - a slice index * * OUTPUT slicename - a char * pointer to hold the resulting slicename * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Utility function to manufacture a new slice name given the * "parent" disk and an available slice index. * * The caller should free the returned name when done with it. */ static int make_slicename_for_disk_and_index( dm_descriptor_t disk, uint16_t index, char **slicename) { char *dname; int error = 0; if ((error = get_display_name(disk, &dname)) == 0) { error = make_slicename_for_diskname_and_index(dname, index, slicename); } return (error); } /* * FUNCTION: make_slicename_for_diskname_and_index(char *diskname, * uint32_t index, char **slicename) * * INPUT: diskname - a char * disk name * index - a slice index * * OUTPUT slicename - a char * pointer to hold the resulting slicename * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Utility function to manufacture a new slice name given the * name of a disk and an available slice index. * * The caller should free the returned name when done with it. */ int make_slicename_for_diskname_and_index( char *diskname, uint16_t index, char **slicename) { int error = 0; char buf[MAXNAMELEN+1]; (void) snprintf(buf, sizeof (buf), "%ss%u", diskname, index); if ((*slicename = strdup(buf)) == NULL) { *slicename = NULL; error = ENOMEM; } return (error); } /* * FUNCTION: create_new_slice(dm_descriptor_t oslice, uint64_t nbytes, * boolean_t add_extra_cyl, devconfig_t **nslice) * * INPUT: oslice - dm_descriptor_t handle to an existing slice * nbytes - desired minimum size of the new slice * add_extra_cyl - boolean indicating whether the resized slice * needs to be oversized by 1 cylinder to account for * interlace rounding done for stripe components. * nslice - devconfig_t pointer to hold the new slice * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Creates a new slice object using space from the input slice. * * If there is an open slice slot in the disk VTOC, it will be * reserved for the new slice. Space for the new slice will be * taken from the original slice. * * If there is no open slice slot, the original slice will be * returned as the usable new slice. * * The new slice will be of at least 'nbytes' bytes and possibly * larger due to sector and cylinder boundary alignment. * * For EFI labeled disks, nbytes is rounded up to the next block * boundary. * * For VTOC labeled disks, nbytes is rounded up to the next * cylinder boundary. * * Additionally, if add_extra_cyl is true, the new slice will be * made 1 cylinder larger than necessary. This accounts for the * interlace rounding done within libmeta when computing the * usable size of stripe components on disks with VTOC labels. * Rounding the size up to the next cylinder boundary is not * sufficient because libmeta will round this size down to an * integral multiple of the stripe interlace and then round that * result down to a cylinder boundary. This makes the usable * size of the slice one cylinder smaller and possibly less than * nbytes. Adding an extra cylinder ensures the usable size is * greater than nbytes despite the rounding. * * If the resize is successful a pointer to the devconfig_t * representing the new slice will be returned in "newslice". * * If the resize cannot be done, the newslice pointer will * be NULL. */ static int create_new_slice( dm_descriptor_t oslice, uint64_t nbytes, boolean_t add_extra_cyl, devconfig_t **nslice) { dm_descriptor_t odisk = NULL; boolean_t efi = B_FALSE; char *oname = NULL; uint64_t osize = 0; /* orig size (bytes) */ uint64_t ostart = 0; /* orig start (byte) */ uint64_t ostblk = 0; /* orig start (blk) */ uint64_t nsize = 0; /* new size (bytes) */ uint64_t bytes_per_sect = 0; uint32_t oindex = 0; uint32_t nindex = oindex; int error = 0; *nslice = NULL; ((error = slice_get_disk(oslice, &odisk)) != 0) || (error = slice_get_index(oslice, &oindex)); if (error != 0) { return (error); } /* find an unused slice number, default to oindex */ nindex = oindex; if ((error = disk_get_available_slice_index(odisk, &nindex)) != 0) { return (error); } ((error = get_display_name(oslice, &oname)) != 0) || (error = slice_get_size(oslice, &osize)) || (error = slice_get_start(oslice, &ostart)) || (error = slice_get_start_block(oslice, &ostblk)) || (error = disk_get_is_efi(odisk, &efi)) || (error = disk_get_blocksize(odisk, &bytes_per_sect)); if (error != 0) { return (error); } if (efi) { /* EFI: round size to an integral number of blocks (sectors) */ nsize = bytes_per_sect * ((nbytes + (bytes_per_sect - 1)) / bytes_per_sect); oprintf(OUTPUT_DEBUG, gettext(" " "rounded up to %10.2f blocks\n"), (double)(nsize/bytes_per_sect)); } else { /* VTOC: round size to an integral number of cylinders */ uint64_t nhead = 0; uint64_t nsect = 0; uint64_t ncyls = 0; ((error = disk_get_ncylinders(odisk, &ncyls)) != 0) || (error = disk_get_nheads(odisk, &nhead)) || (error = disk_get_nsectors(odisk, &nsect)); if (error == 0) { uint64_t bytes_per_cyl = nhead * nsect * bytes_per_sect; nsize = bytes_per_cyl * ((nbytes + (bytes_per_cyl - 1)) / bytes_per_cyl); if (add_extra_cyl == TRUE) { nsize += bytes_per_cyl; } oprintf(OUTPUT_DEBUG, gettext(" " "rounded VTOC slice to %10.2f cylinders " "(out of %llu)\n"), (double)(nsize/bytes_per_cyl), ncyls); } } /* is sufficient space still available? */ if (error == 0) { if (osize == nsize) { /* use existing slice as is */ ((error = create_devconfig_for_slice(oslice, nslice)) != 0) || (error = disk_reserve_index(odisk, (uint16_t)nindex)); } else if (osize > nsize) { if (nindex == oindex) { /* no more slices, resize existing slice */ ((error = create_devconfig_for_slice(oslice, nslice)) != 0) || (error = devconfig_set_size(*nslice, nsize)) || (error = devconfig_set_size_in_blocks(*nslice, nsize/bytes_per_sect)); (error = disk_reserve_index(odisk, (uint16_t)nindex)); } else { /* make a new slice */ char *nname = NULL; ((error = make_slicename_for_disk_and_index(odisk, nindex, &nname)) != 0) || (error = create_modified_slice(oslice, oname, oindex, ostart, osize, bytes_per_sect, nname, nindex, nsize, nslice)) || /* mark the new slice's index as used */ (error = disk_reserve_index(odisk, (uint16_t)nindex)); if ((error != 0) && (*nslice == NULL)) { free(nname); } } } } return (error); } /* * FUNCTION: create_modified_slice(dm_descriptor_t oslice, char *oname, * uint32_t oindex, uint64_t ostart, uint64_t osize, * uint64_t bytes_per_sect, uint64_t nsize, * char *nname, uint32_t nindex, devconfig_t **nslice) * * INPUT: oslice - dm_descriptor_t handle for the original slice * oname - existing source slice name * oindex - existing source slice VTOC index * ostart - existing source slice start byte * osize - existing source slice size in bytes * bytes_per_sect - bytes per block (sector) for the disk * nname - new slice name * nindex - new slice VTOC index * nsize - new slice size in bytes (cylinder and block aligned) * * SIDEEFFECTS: updates the module private list of modified slices * * OUTPUT: nslice - pointer to a devconfig_t to hold the new slice * * PURPOSE: create a new VTOC slice by taking space from an * existing slice. * * The input size for the new slice is expected to be * cylinder aligned. */ static int create_modified_slice( dm_descriptor_t oslice, char *oname, uint32_t oindex, uint64_t ostart, uint64_t osize, uint64_t bytes_per_sect, char *nname, uint32_t nindex, uint64_t nsize, devconfig_t **nslice) { int error = 0; /* compute start sector and size in sectors for the new slice */ /* subtract nsize from original slice to get starting byte */ uint64_t nstart = (ostart + osize) - nsize; /* convert starting byte to a sector */ uint64_t nstblk = (uint64_t)(nstart / bytes_per_sect); /* convert nsize to an integral number of blocks (sectors) */ uint64_t nblks = (uint64_t)(nsize / bytes_per_sect); /* create a modified slice record for the new slice */ error = assemble_modified_slice(oslice, nname, nindex, nstblk, nblks, nsize, nslice); if (error != 0) { free(nname); return (error); } /* update the existing source slice's new size */ osize = osize - nsize; (void) slice_set_size(oslice, osize); /* update/create the modified slice record gfor the source slice */ error = assemble_modified_slice((dm_descriptor_t)0, oname, oindex, (uint64_t)(ostart / bytes_per_sect), (uint64_t)(osize / bytes_per_sect), osize, NULL); return (error); } /* * FUNCTION: assemble_modified_slice(dm_descriptor_t src_slice, * char *mod_name, uint32_t mod_index, * uint64_t mod_stblk, uint64_t mod_nblks, * uint64_t mod_size, devconfig_t **modslice) * * INPUT: src_slice - dm_descriptor_t handle of the slice space * was taken from to create the modified slice * mod_name - name of the modified slice * mod_index - name of the modified slice * mod_stblk - start block of the modified slice * mod_nblks - size in blocks of the modified slice * mod_size - size in bytes of the modified slice * * OUTPUT: mod_slice - if non-NULL, will be populated with a * devconfig_t representing the modified slice. * * SIDEEFFECTS: adds or updates an entry in the modified slice list * tracking the slices that have been explicitly modified * by the layout code. * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Utility function to which updates or creates a devconfig_t * representing a slice that needs to be modified. * * If a modified slice record does not exist for the named * slice, a new devconfig_t struct is allocated and added * to the modified slice list. * * The existing or created devconfig_t struct is updated with * the input values. * * The information about the slices in the modified slice list * will eventually be handed to fmthard. */ int assemble_modified_slice( dm_descriptor_t src_slice, char *mod_name, uint32_t mod_index, uint64_t mod_stblk, uint64_t mod_nblks, uint64_t mod_size, devconfig_t **mod_slice) { devconfig_t *slice = NULL; modslice_t *mstp = NULL; dlist_t *item = NULL; int error = 0; /* see if the slice has been modified before */ if ((item = dlist_find(_modified_slices, mod_name, compare_string_to_modslice_name)) != NULL) { /* yes, update the resize count and attributes */ mstp = (modslice_t *)item->obj; slice = mstp->slice_devcfg; mstp->times_modified += 1; mstp->src_slice_desc = src_slice; ((error = devconfig_set_slice_start_block(slice, mod_stblk)) != 0) || (error = devconfig_set_size(slice, mod_size)) || (error = devconfig_set_size_in_blocks(slice, mod_nblks)); } else { /* no, first modification... */ /* create a devconfig_t representing the new slice */ ((error = new_devconfig(&slice, TYPE_SLICE)) != 0) || (error = devconfig_set_name(slice, mod_name)) || (error = devconfig_set_slice_index(slice, mod_index)) || (error = devconfig_set_slice_start_block(slice, mod_stblk)) || (error = devconfig_set_size_in_blocks(slice, mod_nblks)) || (error = devconfig_set_size(slice, mod_size)); if (error == 0) { /* add to list of modified slices */ if ((mstp = (modslice_t *) calloc(1, sizeof (modslice_t))) != NULL) { /* count # of times source slice has been modified */ if (src_slice != (dm_descriptor_t)0) { mstp->times_modified = 0; } else { mstp->times_modified = 1; } mstp->src_slice_desc = src_slice; mstp->slice_devcfg = slice; if ((item = dlist_new_item(mstp)) != NULL) { _modified_slices = dlist_insert_ordered( item, _modified_slices, ASCENDING, compare_modslice_names); } else { error = ENOMEM; } } else { error = ENOMEM; } } if (error != 0) { free_devconfig(mstp); free_devconfig(slice); } } if (error == 0) { oprintf(OUTPUT_DEBUG, " " "modified %s (start blk: %9llu, nblks: %9llu)\n", mod_name, mod_stblk, mod_nblks); /* return devconfig_t for modified slice */ if (mod_slice != NULL) { *mod_slice = slice; mstp->volume_component = B_TRUE; } } return (error); } /* * FUNCTION: dlist_t *get_modified_slices() * * RETURNS: pointer to the list of modslice_t structs representing * modified slices * * PURPOSE: public accessor to the list of slices modified while * processing a request. */ dlist_t * get_modified_slices() { return (_modified_slices); } /* * FUNCTION: free_modslice_object(void *obj) * * INPUT: obj - opaque pointer * * PURPOSE: Frees memory associated with a modslice_t struct. */ static void free_modslice_object( void *obj) { assert(obj != (modslice_t *)NULL); if (((modslice_t *)obj)->slice_devcfg != NULL) { if (((modslice_t *)obj)->volume_component != B_TRUE) { free_devconfig(((modslice_t *)obj)->slice_devcfg); } } free(obj); } /* * FUNCTION: void release_modified_slices() * * INPUT: none - * OUTPUT: none - * * PURPOSE: cleanup the module global list of slices modified * while processing a request. */ int release_modified_slices() { dlist_free_items(_modified_slices, free_modslice_object); _modified_slices = NULL; return (0); } /* * FUNCTION: destroy_new_slice(devconfig_t *dev) * * INPUT: dev - a devconfig_t pointer to a slice object * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Undoes slice creation done by create_new_slice(): * * release index * remove from used_slices * remove from modified_slices * return space to source slice * free memory */ int destroy_new_slice( devconfig_t *dev) { dm_descriptor_t disk = NULL; uint64_t size = 0; uint16_t index = 0; modslice_t *modified = NULL; dlist_t *item = NULL; char *name = NULL; int error = 0; ((error = devconfig_get_name(dev, &name)) != 0) || (error = devconfig_get_slice_index(dev, &index)) || (error = devconfig_get_size(dev, &size)) || (error = get_disk_for_named_slice(name, &disk)) || (error = disk_release_index(disk, index)) || (error = remove_used_slice_by_name(name)); if (error != 0) { return (error); } /* remove from the modified_slices list */ _modified_slices = dlist_remove_equivalent_item( _modified_slices, name, compare_string_to_modslice_name, &item); if (item != NULL) { modified = (modslice_t *)item->obj; free((void*) item); } /* space from an existing slice? if so reclaim it. */ if (modified != NULL) { dm_descriptor_t src = modified->src_slice_desc; char *srcname = NULL; dlist_t *srcitem = NULL; if (src != (dm_descriptor_t)0) { if ((error = get_display_name(src, &srcname)) == 0) { srcitem = dlist_find( _modified_slices, srcname, compare_string_to_modslice_name); } } if ((error == 0) && (srcitem != NULL)) { modslice_t *source = (modslice_t *)srcitem->obj; devconfig_t *srcdevcfg = NULL; uint64_t srcsize = NULL; uint64_t srcsizeblks = NULL; uint64_t inblks = NULL; srcdevcfg = source->slice_devcfg; source->times_modified -= 1; ((error = devconfig_get_size(srcdevcfg, &srcsize)) != 0) || (error = devconfig_set_size(srcdevcfg, srcsize + size)) || (error = slice_set_size(src, srcsize + size)) || (error = slice_get_size_in_blocks(src, &srcsizeblks)) || (error = devconfig_get_size_in_blocks(srcdevcfg, &inblks)); (error = devconfig_set_size_in_blocks(srcdevcfg, srcsizeblks)); if (error == 0) { /* was only modification undone? */ if (source->times_modified == 0) { _modified_slices = dlist_remove_equivalent_item( _modified_slices, srcname, compare_string_to_modslice_name, &srcitem); free_modslice_object((modslice_t *)srcitem->obj); free((void *)srcitem); } } } free_modslice_object(modified); } return (error); } /* * FUNCTION: pick_from_best_hba_and_disk(dlist_t *slices, * dlist_t *used, dm_descriptor_t *chosen) * * INPUT: slices - a dlist_t poitner to a list of slices * used - a dlist_t pointer to a list of used slices * chosen - a dm_descriptor_t pointer to hold the result * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Examines the input list of slices and chooses the one * that is on the least used HBA and disk. * * HBA and disk usage is determined by examining the input * list of used slices and counting the number of slices * each HBA and disk contributes. * * The HBA which contributes the fewest is selected, and * then the disk on that HBA which contributes the fewest * is selected. * * The largest slice from that disk is then returned. */ static int pick_from_best_hba_and_disk( dlist_t *slices, dlist_t *used, dm_descriptor_t *chosen) { dlist_t *iter = NULL; dlist_t *iter1 = NULL; dlist_t *iter2 = NULL; dlist_t *item = NULL; dlist_t *used_slice_hbas = NULL; int maxuses = 128; int maxslices = VTOC_SIZE; /* meta.h */ int i = 0; int error = 0; /* * allocate an array to hold lists of slices grouped by * HBA contribution... the list indexed by N is the list * of slices that are on HBAs contributing N slices */ dlist_t **prefhbas = (dlist_t **)calloc(maxuses, sizeof (dlist_t *)); /* * allocate an array to hold lists of slices grouped by * disk contribution... the list indexed by N is the list * of slices that are on disks contributing N slices */ dlist_t **prefdisks = (dlist_t **)calloc(maxslices, sizeof (dlist_t *)); *chosen = (dm_descriptor_t)0; if (prefhbas == NULL || prefdisks == NULL) { free(prefhbas); free(prefdisks); return (ENOMEM); } /* * precompute the used slices' lists of HBAS: iterate the list * of used slices and determine the HBA(s) each is connected thru. * construct a list of lists containing the HBAs. */ for (iter = used; (iter != NULL) && (error == 0); iter = iter->next) { devconfig_t *uslice = (devconfig_t *)iter->obj; dm_descriptor_t udisk = NULL; char *uname = NULL; dlist_t *uhbas = NULL; /* need to use disk to get to HBAs because */ /* the slice doesn't exist yet */ ((error = devconfig_get_name(uslice, &uname)) != 0) || (error = get_disk_for_named_slice(uname, &udisk)) || (error = disk_get_hbas(udisk, &uhbas)); if (error == 0) { if ((item = dlist_new_item((void *)uhbas)) == NULL) { error = ENOMEM; } else { used_slice_hbas = dlist_append( item, used_slice_hbas, AT_HEAD); } } } /* * iterate the list of chosen slices and for each, * determine how many other slices from its HBA(s) * are already being used... * * iter steps thru the list of slices * iter1 steps thru each of the slice's HBAs * iter2 steps thru the precomputed list of used slice's HBAs * dlist_contains then searches each used slice's HBAs * to see if it contains iter1's HBA * * If it does, increment the count for that HBA. */ for (iter = slices; (iter != NULL) && (error == 0); iter = iter->next) { dm_descriptor_t slice = (uintptr_t)iter->obj; dlist_t *hbas = NULL; int n = 0; /* # slices each HBA contributes */ if ((error = slice_get_hbas(slice, &hbas)) != 0) { continue; } for (iter1 = hbas; iter1 != NULL; iter1 = iter1->next) { for (iter2 = used_slice_hbas; iter2 != NULL; iter2 = iter2->next) { dlist_t *uhbas = (dlist_t *)iter2->obj; if (dlist_contains(uhbas, iter1->obj, compare_descriptor_names) == B_TRUE) { n++; } } } dlist_free_items(hbas, NULL); /* group slices from HBAs contributing more than maxuses */ if (n >= maxuses) { n = maxuses - 1; } /* add slice to list in descending size order */ if ((item = dlist_new_item((void*)(uintptr_t)slice)) == NULL) { error = ENOMEM; } else { prefhbas[n] = dlist_insert_ordered( item, prefhbas[n], DESCENDING, compare_slice_sizes); } } /* free list of lists of used slices HBAs */ for (iter = used_slice_hbas; iter != NULL; iter = iter->next) { dlist_free_items((dlist_t *)iter->obj, NULL); } dlist_free_items(used_slice_hbas, NULL); /* * Select the list of slices that are on the HBA(s) contributing * the fewest slices... iterate these slices and for each, detemmine * how many other slices from its disk are already being used... */ for (i = 0; (i < maxuses) && (error == 0); i++) { for (iter = (dlist_t *)prefhbas[i]; (iter != NULL) && (error == 0); iter = iter->next) { dm_descriptor_t slice = (uintptr_t)iter->obj; dm_descriptor_t disk; int n = 0; (void) slice_get_disk(slice, &disk); /* * count how many slices this slice's disk is contributing * by comparing it to the list of used slices */ for (iter1 = _used_slices; iter1 != NULL; iter1 = iter1->next) { usedslice_t *used = (usedslice_t *)iter1->obj; if (compare_descriptors((void *)(uintptr_t)disk, (void *)(uintptr_t)used->disk) == 0) { n++; } } /* add slice to list in descending size order */ if ((item = dlist_new_item((void *)(uintptr_t)slice)) == NULL) { error = ENOMEM; } else { prefdisks[n] = dlist_insert_ordered( item, prefdisks[n], DESCENDING, compare_slice_sizes); } } } if (error == 0) { /* select largest slice from least used disk */ for (i = 0; (i < maxslices) && (*chosen == NULL); i++) { if (prefdisks[i] != NULL) { *chosen = (uintptr_t)prefdisks[i]->obj; } } } for (i = 0; i < maxuses; i++) { dlist_free_items(prefhbas[i], NULL); } for (i = 0; i < maxslices; i++) { dlist_free_items(prefdisks[i], NULL); } free((void*)prefhbas); free((void*)prefdisks); return (error); } /* * FUNCTION: slice_on_unique_hba(dm_descriptor_t slice, * dlist_t *used, dlist_t *used_hbas, * boolean_t *unique) * * INPUT: slice - a dm_descriptor_t handle for the slice of interest * used - a dlist_t pointer to a list of used slices * used_hbas - a dlist_t pointer to a list of used_hbas * unique - a boolean_t pointer to hold the result * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Determines if the input slice is connected thru the same HBA * as a slice in the used list. * * Also checks to see if the input slice is connected thru any * HBA in the used_hbas list. * * If the slice is found to be on a unique HBA, bool is set * to B_TRUE, B_FALSE otherwise. */ static int slice_on_unique_hba( dm_descriptor_t slice, dlist_t *used, dlist_t *used_hbas, boolean_t *unique) { dlist_t *iter = NULL; dlist_t *iter1 = NULL; dlist_t *hbas = NULL; int error = 0; *unique = B_TRUE; if ((error = slice_get_hbas(slice, &hbas)) != 0) { return (error); } /* * check to see if any of slice's HBAs is the same * as the HBA for any of the used */ for (iter = used; (iter != NULL) && (*unique == B_TRUE) && (error == 0); iter = iter->next) { devconfig_t *dev = (devconfig_t *)iter->obj; if (devconfig_isA(dev, TYPE_SLICE)) { dm_descriptor_t odisk = NULL; char *oname = NULL; dlist_t *ohbas = NULL; /* get HBAs for other slice using its disk */ /* because the slice doesn't exist yet. */ ((error = devconfig_get_name(dev, &oname)) != 0) || (error = get_disk_for_named_slice(oname, &odisk)) || (error = disk_get_hbas(odisk, &ohbas)); /* any HBA overlap? */ for (iter1 = hbas; (iter1 != NULL) && (*unique == B_TRUE) && (error == 0); iter1 = iter1->next) { if (dlist_contains(ohbas, iter1->obj, compare_descriptor_names) == B_TRUE) { *unique = B_FALSE; } } dlist_free_items(ohbas, NULL); } } /* * check to see if any of slice's HBAs is the contained * in the list of used hbas */ for (iter = hbas; (iter != NULL) && (*unique == B_TRUE) && (error == 0); iter = iter->next) { if (dlist_contains(used_hbas, iter->obj, compare_descriptor_names) == B_TRUE) { *unique = B_FALSE; } } dlist_free_items(hbas, NULL); return (error); } /* * FUNCTION: slice_on_unique_disk(dm_descriptor_t slice, * dlist_t *used, dlist_t *used_disks, * boolean_t *unique) * * INPUT: slice - a dm_descriptor_t handle for the slice of interest * used - a dlist_t pointer to a list of used slices * othervols - a dlist_t pointer to a list of other volumes * bool - a boolean_t pointer to hold the result * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Determines if the input slice is on a drive that is not * part of any volume in the othervols list, or on the same * drive as any slice in the used list. * * If the slice is found to be on a unique disk, bool is set * to B_TRUE, B_FALSE otherwise. */ static int slice_on_unique_disk( dm_descriptor_t slice, dlist_t *used, dlist_t *used_disks, boolean_t *unique) { dm_descriptor_t disk = NULL; dlist_t *iter = NULL; int error = 0; *unique = B_TRUE; if ((error = slice_get_disk(slice, &disk)) != 0) { return (error); } /* * check to see if this disk is the same as the * disk for any of the used */ for (iter = used; (iter != NULL) && (*unique == B_TRUE) && (error == 0); iter = iter->next) { devconfig_t *dev = (devconfig_t *)iter->obj; if (devconfig_isA(dev, TYPE_SLICE)) { /* get disk for otherslice */ dm_descriptor_t odisk = NULL; char *oname = NULL; ((error = devconfig_get_name(dev, &oname)) != 0) || (error = get_disk_for_named_slice(oname, &odisk)); if ((error == 0) && (compare_descriptor_names((void*)(uintptr_t)disk, (void*)(uintptr_t)odisk) == 0)) { /* origslice is on same disk, stop */ *unique = B_FALSE; } } } /* check disk against the used disks */ if ((error == 0) && (*unique == B_TRUE) && dlist_contains(used_disks, (void *)(uintptr_t)disk, compare_descriptor_names) == B_TRUE) { *unique = B_FALSE; } return (error); } /* * FUNCTION: slice_has_same_disk_geom(dm_descriptor_t slice, * dlist_t *used, boolean_t *has_same_geom) * * INPUT: slice - a dm_descriptor_t handle for the slice of interest * used - a dlist_t pointer to a list of used slices * bool - a boolean_t pointer to hold the result * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Determines if the input slice is on a drive with similar * hardware geometry as the slices in the used list. * * If the slice is found to be on a disk with similar geometry, * bool is set to B_TRUE, B_FALSE otherwise. * * The comparison is based on the available disk geometry * information which may not be relevant or accurate for * EFI labeled disks, so the disk drive type needs to be * checked as well. */ static int slice_has_same_disk_geom( dm_descriptor_t slice, dlist_t *used, boolean_t *has_same_geom) { dm_descriptor_t disk = NULL; boolean_t efi = B_FALSE; uint64_t bsize = 0; uint64_t ncyls = 0; uint64_t nsects = 0; uint64_t nheads = 0; dlist_t *iter = NULL; int error = 0; *has_same_geom = B_TRUE; ((error = slice_get_disk(slice, &disk)) != 0) || (error = disk_get_is_efi(disk, &efi)) || (error = disk_get_blocksize(disk, &bsize)); if ((error == 0) && (efi == B_FALSE)) { ((error = disk_get_ncylinders(disk, &ncyls)) != 0) || (error = disk_get_nheads(disk, &nheads)) || (error = disk_get_nsectors(disk, &nsects)); } if (error != 0) { return (error); } /* * check to see if slice's disk has the same geometry * as the disks for the slices in the used list */ for (iter = used; (iter != NULL) && (*has_same_geom == B_TRUE) && (error = 0); iter = iter->next) { devconfig_t *dev = (devconfig_t *)iter->obj; if (devconfig_isA(dev, TYPE_SLICE)) { /* get disk info for otherslice */ dm_descriptor_t odisk = NULL; char *oname = NULL; boolean_t oefi = B_FALSE; uint64_t obsize = 0; uint64_t oncyls = 0; uint64_t onsects = 0; uint64_t onheads = 0; ((error = devconfig_get_name(dev, &oname)) != 0) || (error = get_disk_for_named_slice(oname, &odisk)) || (error = disk_get_is_efi(odisk, &oefi)) || (error = disk_get_blocksize(odisk, &obsize)); if ((error == 0) && (oefi == B_FALSE)) { ((error = disk_get_ncylinders(odisk, &oncyls)) != 0) || (error = disk_get_nheads(odisk, &onheads)) || (error = disk_get_nsectors(odisk, &onsects)); } if (error == 0) { if ((bsize != obsize) || (ncyls != oncyls) || (nsects != onsects) || (nheads != onheads)) { /* this disk has a different geometry */ *has_same_geom = B_FALSE; } } } } return (error); } /* * FUNCTION: slice_on_similar_bus(dm_descriptor_t slice, * dlist_t *used, boolean_t *on_smlr_bus) * * INPUT: slice - a dm_descriptor_t handle for the slice of interest * used - a dlist_t pointer to a list of used slices * bool - a boolean_t pointer to hold the result * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Determines if the input slice is connected thru a bus with * characteristics similar to the slices in the used list. * * If the slice is found to be on a similar bus, bool is set * to B_TRUE, B_FALSE otherwise. * * The comparison is actually between any of the HBA/controllers * thru which the slices are connected to the system. * If any are of similar type (e.g., fibre, SCSI) and * protocol (SCSI-2, -3, fast/wide), then the slices are * considered to be on similar busses. */ static int slice_on_similar_bus( dm_descriptor_t slice, dlist_t *used, boolean_t *on_smlr_bus) { dlist_t *iter = NULL; dlist_t *iter1 = NULL; dlist_t *hbas = NULL; int error = 0; /* if there are no used slices, then the bus is similar */ *on_smlr_bus = B_TRUE; if (dlist_length(used) == 0) { return (0); } (error = slice_get_hbas(slice, &hbas)); if (error != 0) { return (error); } /* if there are used slices, then make sure the bus is similar */ *on_smlr_bus = B_FALSE; for (iter = hbas; (iter != NULL) && (*on_smlr_bus == B_FALSE) && (error == 0); iter = iter->next) { dm_descriptor_t hba = (uintptr_t)iter->obj; char *type = NULL; boolean_t fast80 = B_FALSE; boolean_t fast40 = B_FALSE; boolean_t fast20 = B_FALSE; boolean_t wide = B_FALSE; ((error = hba_get_type(hba, &type)) != 0) || (error = hba_is_fast_80(hba, &fast80)) || (error = hba_is_fast_40(hba, &fast40)) || (error = hba_is_fast_20(hba, &fast20)) || (error = hba_supports_wide(hba, &wide)); if (error != 0) { continue; } /* check against the HBAs for the used slices */ for (iter1 = used; (iter1 != NULL) && (*on_smlr_bus == B_FALSE) && (error == 0); iter1 = iter1->next) { devconfig_t *used = (devconfig_t *)iter1->obj; /* get HBAs for otherslice */ dm_descriptor_t udisk = NULL; char *uname = NULL; dlist_t *uhbas = NULL; dlist_t *iter2 = NULL; ((error = devconfig_get_name(used, &uname)) != 0) || (error = get_disk_for_named_slice(uname, &udisk)) || (error = disk_get_hbas(udisk, &uhbas)); for (iter2 = uhbas; (iter2 != NULL) && (*on_smlr_bus == B_FALSE) && (error == 0); iter2 = iter2 ->next) { dm_descriptor_t uhba = (uintptr_t)iter2->obj; char *utype = NULL; boolean_t ufast80 = B_FALSE; boolean_t ufast40 = B_FALSE; boolean_t ufast20 = B_FALSE; boolean_t uwide = B_FALSE; ((error = hba_get_type(uhba, &utype)) != 0) || (error = hba_is_fast_80(uhba, &ufast80)) || (error = hba_is_fast_40(uhba, &ufast40)) || (error = hba_is_fast_20(uhba, &ufast20)) || (error = hba_supports_wide(uhba, &uwide)); if (error == 0) { /* check sync speed ? */ if ((fast80 == ufast80) && (fast40 == ufast40) && (fast20 == ufast20) && (wide == uwide) && (type == utype)) { *on_smlr_bus = B_TRUE; } } } dlist_free_items(uhbas, NULL); } } dlist_free_items(hbas, NULL); return (error); } /* * FUNCTION: slice_has_n_paths(dm_descriptor_t slice, * uint16_t npaths, boolean_t *has_n_paths) * INPUT: slice - a dm_descriptor_t handle for the slice of interest * npaths - the number of paths desired * has_n_paths - a boolean_t pointer to hold the result * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Determines if the input slice is connected via npaths. * has_n_paths is set to B_TRUE if so, B_FALSE otherwise. * * In order for a disk to have multiple paths, MPXIO must * be enabled and these conditions should hold: * * Slice will have one drive object. * Drive will have one HBA (scsi_vhci) * Drive will have one alias. * Drive will have possibly > 1 paths. * * Getting the HBAs and aliases for the disk is relatively * expensive, so they aren't checked. The actual number of * paths is only checked if MPXIO is known to be enabled on * the system and the input npaths is > 1. */ static int slice_has_n_paths( dm_descriptor_t slice, uint16_t npaths, boolean_t *has_n_paths) { int error = 0; *has_n_paths = B_FALSE; if ((npaths > 1) && (is_mpxio_enabled() == B_TRUE)) { dm_descriptor_t disk = NULL; dlist_t *paths = NULL; ((error = slice_get_disk(slice, &disk)) != 0) || (error = disk_get_paths(disk, &paths)); if ((error == 0) && (dlist_length(paths) == npaths)) { *has_n_paths = B_TRUE; } dlist_free_items(paths, NULL); } return (error); } /* * FUNCTION: compare_string_to_modslice_name(void *str, void *modslice) * * INPUT: str - opaque char * pointer * modslice - opaque modslice_t pointer * * RETURNS: int - <0 - if str < modslice->slice_devcfg.name * 0 - if str == modslice->slice_devcfg.name * >0 - if str > modslice->slice_devcfg.name * * PURPOSE: dlist_t helper which compares the input string to * the name of a slice represented as modslice_t struct. * * Comparison is done via string_case_compare. */ static int compare_string_to_modslice_name( void *str, void *modslice) { char *name = NULL; assert(str != NULL); assert(modslice != NULL); (void) devconfig_get_name( ((modslice_t *)modslice)->slice_devcfg, &name); return (string_case_compare((char *)str, name)); } /* * FUNCTION: compare_modslice_names(void *obj1, void *obj2) * * INPUT: obj1 - opaque pointer * obj2 - opaque pointer * * RETURNS: int - <0 - if obj1 name < obj2 name * 0 - if obj1 name == obj2 name * >0 - if obj1 name > obj2 name * * PURPOSE: dlist_t helper which compares the names of two slices * represented as modslice_t structs. * * Comparison is done by string_case_compare */ static int compare_modslice_names( void *obj1, void *obj2) { char *name1 = NULL; char *name2 = NULL; assert(obj1 != NULL); assert(obj2 != NULL); (void) devconfig_get_name( ((modslice_t *)obj1)->slice_devcfg, &name1); (void) devconfig_get_name( ((modslice_t *)obj2)->slice_devcfg, &name2); return (string_case_compare(name1, name2)); } /* * FUNCTION: release_used_slices() * * PURPOSE: Helper which cleans up the module private list of used * slices. */ void release_used_slices() { dlist_free_items(_used_slices, free_used_slice); _used_slices = NULL; } static void free_used_slice( void *obj) { if (obj != NULL) { usedslice_t *used = (usedslice_t *)obj; free(used->slicename); free(used); } } /* * FUNCTION: is_used_slice(dm_descriptor_t slice, boolean_t *is_used) * * INPUT: slice - a dm_descriptor_t slice handle * * OUTPUT: is_reserved - pointer to a boolean_t to hold the * return result. * * PURPOSE: Helper which checks to see if the input slice * is in the used_slice list. * * Check the input name against any used slice name or alias. * is_used is set to B_TRUE if the input slice is already used, * B_FALSE otherwise. */ int is_used_slice( dm_descriptor_t slice, boolean_t *is_used) { char *name; int error = 0; if ((error = get_display_name(slice, &name)) == 0) { *is_used = dlist_contains(_used_slices, (void *)name, compare_usedslice_name_to_string); } return (error); } /* * FUNCTIONS: add_used_slice(dm_descriptor_t slice) * add_used_slice_by_name(char *slicename) * add_used_slice_list_entry(char *slice) * remove_used_slice_by_name(char *slicename) * * INPUT: diskset - a char * diskset name. * slice - a dm_descriptor_t slice handle * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Access or maintain the list of used slices. */ int add_used_slice( dm_descriptor_t slice) { dm_descriptor_t disk; char *name; int error = 0; assert(slice != (dm_descriptor_t)0); ((error = get_display_name(slice, &name)) != 0) || (error = slice_get_disk(slice, &disk)) || (error = add_used_slice_list_entry(name, disk)); return (error); } int add_used_slice_by_name( char *slicename) { dm_descriptor_t disk = (dm_descriptor_t)0; int error = 0; assert(slicename != NULL); /* find disk for slice */ error = get_disk_for_named_slice(slicename, &disk); if (error == 0) { error = add_used_slice_list_entry(slicename, disk); } return (error); } static int add_used_slice_list_entry( char *slicename, dm_descriptor_t disk) { usedslice_t *used = NULL; int error = 0; assert(slicename != NULL); assert(disk != (dm_descriptor_t)0); used = (usedslice_t *)calloc(1, sizeof (usedslice_t)); if (used == NULL) { error = ENOMEM; } else { used->disk = disk; if ((used->slicename = strdup(slicename)) == NULL) { free(used); error = ENOMEM; } else { dlist_t *item = dlist_new_item((void *) used); if (item == NULL) { free(used->slicename); free(used); error = ENOMEM; } else { _used_slices = dlist_append(item, _used_slices, AT_HEAD); } } } return (error); } int remove_used_slice_by_name( char *slice) { dlist_t *removed = NULL; _used_slices = dlist_remove_equivalent_item(_used_slices, (void *)slice, compare_usedslice_name_to_string, &removed); if (removed != NULL) { free_used_slice(removed->obj); removed->obj = NULL; free(removed); } return (0); } /* * FUNCTION: compare_usedslice_name_to_string(void *obj1, void *obj2) * INPUT: obj1 - opaque pointer * obj2 - opaque pointer * * RETURNS: int - <0 - if obj1 name < obj2 name * 0 - if obj1 name == obj2 name * >0 - if obj1 name > obj2 name * * PURPOSE: dlist_t helper which compares the names of a slice * represented as modslice_t struct to a string. * * obj1 is assumed to be a char * * obj2 is assumed to be a usedslice_t * * * Comparison is done via string_case_compare. */ static int compare_usedslice_name_to_string( void *obj1, void *obj2) { assert(obj1 != NULL); assert(obj2 != NULL); return (string_case_compare((char *)obj1, ((usedslice_t *)obj2)->slicename)); } /* * FUNCTION: disk_has_used_slice(dm_descriptor_t disk, boolean_t *hasused) * * INPUT: disk - a dm_descriptor_t disk handle. * inuse - a boolean_t pointer to hold the result * * RETURNS: int - 0 on success * !0 othersize. * * PURPOSE: Determines if any of the known used slices is on the * input disk. */ int disk_has_used_slice( dm_descriptor_t disk, boolean_t *hasused) { dlist_t *iter; int error = 0; *hasused = B_FALSE; for (iter = _used_slices; (iter != NULL) && (*hasused == B_FALSE); iter = iter->next) { usedslice_t *used = (usedslice_t *)iter->obj; /* compare used slice's disk to disk */ if (compare_descriptors((void *)(uintptr_t)disk, (void *)(uintptr_t)used->disk) == 0) { *hasused = B_TRUE; } } return (error); } /* * FUNCTION: add_reserved_slice(dm_descriptor_t slice) * * INPUT: slice - a dm_descriptor_t slice handle * * RETURNS: int - 0 on success * !0 otherwise. * * PURPOSE: Helper which remembers specfically requested slices * in a private list to ensure that the same slice isn't * requested more than once. * * Does not check to see if the slice already exists * in the list of reserved slices. Assumes that the * caller has checked using is_reserved_slice(). * * The reserved slice list is used by several functions: * * 1. layout_validate.validate_slice_components() adds user * requested slices to the list. * * 2. After all potentially usable slices have been scanned, * layout_validate.validate_reserved_slices() checks the * slices in the reserved and ensures that each slice is * actually usable as a volume component. * * 3. layout.disk_get_avail_space(), layout.disk_get_avail_slices() * exclude slices in the reserved list from being considered * available for general layout use. */ int add_reserved_slice( dm_descriptor_t slice) { dlist_t *item = NULL; if ((item = dlist_new_item((void *)(uintptr_t)slice)) == NULL) { return (ENOMEM); } _rsvd_slices = dlist_append(item, _rsvd_slices, AT_HEAD); return (0); } /* * FUNCTION: is_reserved_slice(dm_descriptor_t slice, * boolean_t *is_reserved) * * INPUT: slice - a dm_descriptor_t slice handle * * OUTPUT: is_reserved - pointer to a boolean_t to hold the * return result. * * PURPOSE: Helper which checks to see if the input slice * was previously reserved. * * Check the input name against any reserved slice * name or alias. is_reserved is set to B_TRUE if the * input slice is already reserved, B_FALSE otherwise. */ int is_reserved_slice( dm_descriptor_t slice, boolean_t *is_reserved) { *is_reserved = dlist_contains(_rsvd_slices, (void *)(uintptr_t)slice, compare_descriptor_names); return (0); } /* * FUNCTION: release_reserved_slice() * * PURPOSE: Helper which cleans up the module private list of reserved * slices. */ void release_reserved_slices() { dlist_free_items(_rsvd_slices, free); _rsvd_slices = NULL; } /* * FUNCTION: get_reserved_slices(dlist_t **list) * * OUTPUT: list - a dlist_t pointer to hold the returned list of * reserverd slices. * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Accessor to retrieve the current list of reserved slice * dm_descriptor_t handles. */ int get_reserved_slices( dlist_t **list) { *list = _rsvd_slices; return (0); } /* * FUNCTION: add_slice_to_remove(char *name, uint32_t index) * * INPUT: name - name of a slice * index - index for the slice * * RETURNS: int - 0 on success * !0 otherwise * * PURPOSE: Utility function to add the named slice to the list of * those that need to be "removed" by having their sizes * set to 0. */ int add_slice_to_remove( char *name, uint32_t index) { rmvdslice_t *rmvd = NULL; int error = 0; assert(name != NULL); rmvd = (rmvdslice_t *)calloc(1, sizeof (rmvdslice_t)); if (rmvd == NULL) { error = ENOMEM; } else { rmvd->slice_index = index; if ((rmvd->slice_name = strdup(name)) == NULL) { free(rmvd); error = ENOMEM; } else { dlist_t *item = dlist_new_item((void *) rmvd); if (item == NULL) { free(rmvd->slice_name); free(rmvd); error = ENOMEM; } else { _rmvd_slices = dlist_append(item, _rmvd_slices, AT_HEAD); } } } return (error); } /* * FUNCTION: get_removed_slices() * * RETURNS: dlist_t * - pointer to a list of rmvdslice_t structs * * PURPOSE: Accessor to retrieve the current list of names of slices * to be removed. */ dlist_t * get_slices_to_remove( dlist_t **list) { return (_rmvd_slices); } static void free_rmvd_slice( void *obj) { if (obj != NULL) { rmvdslice_t *rmvd = (rmvdslice_t *)obj; free(rmvd->slice_name); free(rmvd); } } /* * FUNCTION: release_removed_slices() * * PURPOSE: Helper which cleans up the module private list of removed * slices. */ void release_slices_to_remove() { dlist_free_items(_rmvd_slices, free_rmvd_slice); _rmvd_slices = NULL; }