dd6f2f2c8d
GEOM ELI may double ask the password during boot. Once at loader time, and once at init time. This happens due a module loading bug. By default GEOM ELI caches the password in the kernel, but without the MODULE_VERSION annotation, the kernel loads over the kernel module, even if the GEOM ELI was compiled into the kernel. In this case, the newly loaded module purges/invalidates/overwrites the GEOM ELI's password cache, which causes the double asking. MFC Note: There's a pc98 component to the original submission that is omitted here due to pc98 removal in head. This part will need to be revived upon MFC. Reviewed by: imp Submitted by: op Obtained from: opBSD MFC after: 1 week Differential Revision: https://reviews.freebsd.org/D14992
543 lines
16 KiB
C
543 lines
16 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
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*
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* Copyright (c) 2007 Marcel Moolenaar
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <sys/cdefs.h>
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__FBSDID("$FreeBSD$");
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#include <sys/param.h>
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#include <sys/bio.h>
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#include <sys/disklabel.h>
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#include <sys/endian.h>
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#include <sys/kernel.h>
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#include <sys/kobj.h>
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#include <sys/limits.h>
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#include <sys/lock.h>
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#include <sys/malloc.h>
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#include <sys/mutex.h>
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#include <sys/queue.h>
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#include <sys/sbuf.h>
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#include <sys/systm.h>
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#include <sys/sysctl.h>
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#include <geom/geom.h>
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#include <geom/part/g_part.h>
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#include "g_part_if.h"
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#define BOOT1_SIZE 512
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#define LABEL_SIZE 512
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#define BOOT2_OFF (BOOT1_SIZE + LABEL_SIZE)
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#define BOOT2_SIZE (BBSIZE - BOOT2_OFF)
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FEATURE(geom_part_bsd, "GEOM partitioning class for BSD disklabels");
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struct g_part_bsd_table {
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struct g_part_table base;
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u_char *bbarea;
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uint32_t offset;
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};
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struct g_part_bsd_entry {
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struct g_part_entry base;
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struct partition part;
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};
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static int g_part_bsd_add(struct g_part_table *, struct g_part_entry *,
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struct g_part_parms *);
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static int g_part_bsd_bootcode(struct g_part_table *, struct g_part_parms *);
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static int g_part_bsd_create(struct g_part_table *, struct g_part_parms *);
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static int g_part_bsd_destroy(struct g_part_table *, struct g_part_parms *);
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static void g_part_bsd_dumpconf(struct g_part_table *, struct g_part_entry *,
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struct sbuf *, const char *);
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static int g_part_bsd_dumpto(struct g_part_table *, struct g_part_entry *);
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static int g_part_bsd_modify(struct g_part_table *, struct g_part_entry *,
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struct g_part_parms *);
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static const char *g_part_bsd_name(struct g_part_table *, struct g_part_entry *,
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char *, size_t);
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static int g_part_bsd_probe(struct g_part_table *, struct g_consumer *);
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static int g_part_bsd_read(struct g_part_table *, struct g_consumer *);
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static const char *g_part_bsd_type(struct g_part_table *, struct g_part_entry *,
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char *, size_t);
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static int g_part_bsd_write(struct g_part_table *, struct g_consumer *);
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static int g_part_bsd_resize(struct g_part_table *, struct g_part_entry *,
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struct g_part_parms *);
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static kobj_method_t g_part_bsd_methods[] = {
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KOBJMETHOD(g_part_add, g_part_bsd_add),
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KOBJMETHOD(g_part_bootcode, g_part_bsd_bootcode),
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KOBJMETHOD(g_part_create, g_part_bsd_create),
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KOBJMETHOD(g_part_destroy, g_part_bsd_destroy),
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KOBJMETHOD(g_part_dumpconf, g_part_bsd_dumpconf),
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KOBJMETHOD(g_part_dumpto, g_part_bsd_dumpto),
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KOBJMETHOD(g_part_modify, g_part_bsd_modify),
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KOBJMETHOD(g_part_resize, g_part_bsd_resize),
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KOBJMETHOD(g_part_name, g_part_bsd_name),
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KOBJMETHOD(g_part_probe, g_part_bsd_probe),
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KOBJMETHOD(g_part_read, g_part_bsd_read),
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KOBJMETHOD(g_part_type, g_part_bsd_type),
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KOBJMETHOD(g_part_write, g_part_bsd_write),
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{ 0, 0 }
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};
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static struct g_part_scheme g_part_bsd_scheme = {
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"BSD",
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g_part_bsd_methods,
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sizeof(struct g_part_bsd_table),
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.gps_entrysz = sizeof(struct g_part_bsd_entry),
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.gps_minent = 8,
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.gps_maxent = 20, /* Only 22 entries fit in 512 byte sectors */
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.gps_bootcodesz = BBSIZE,
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};
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G_PART_SCHEME_DECLARE(g_part_bsd);
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MODULE_VERSION(geom_part_bsd, 0);
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static struct g_part_bsd_alias {
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uint8_t type;
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int alias;
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} bsd_alias_match[] = {
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{ FS_BSDFFS, G_PART_ALIAS_FREEBSD_UFS },
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{ FS_SWAP, G_PART_ALIAS_FREEBSD_SWAP },
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{ FS_ZFS, G_PART_ALIAS_FREEBSD_ZFS },
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{ FS_VINUM, G_PART_ALIAS_FREEBSD_VINUM },
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{ FS_NANDFS, G_PART_ALIAS_FREEBSD_NANDFS },
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{ FS_HAMMER, G_PART_ALIAS_DFBSD_HAMMER },
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{ FS_HAMMER2, G_PART_ALIAS_DFBSD_HAMMER2 },
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};
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static int
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bsd_parse_type(const char *type, uint8_t *fstype)
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{
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const char *alias;
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char *endp;
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long lt;
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int i;
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if (type[0] == '!') {
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lt = strtol(type + 1, &endp, 0);
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if (type[1] == '\0' || *endp != '\0' || lt <= 0 || lt >= 256)
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return (EINVAL);
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*fstype = (u_int)lt;
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return (0);
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}
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for (i = 0; i < nitems(bsd_alias_match); i++) {
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alias = g_part_alias_name(bsd_alias_match[i].alias);
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if (strcasecmp(type, alias) == 0) {
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*fstype = bsd_alias_match[i].type;
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return (0);
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}
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}
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return (EINVAL);
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}
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static int
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g_part_bsd_add(struct g_part_table *basetable, struct g_part_entry *baseentry,
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struct g_part_parms *gpp)
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{
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struct g_part_bsd_entry *entry;
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struct g_part_bsd_table *table;
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if (gpp->gpp_parms & G_PART_PARM_LABEL)
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return (EINVAL);
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entry = (struct g_part_bsd_entry *)baseentry;
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table = (struct g_part_bsd_table *)basetable;
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entry->part.p_size = gpp->gpp_size;
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entry->part.p_offset = gpp->gpp_start + table->offset;
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entry->part.p_fsize = 0;
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entry->part.p_frag = 0;
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entry->part.p_cpg = 0;
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return (bsd_parse_type(gpp->gpp_type, &entry->part.p_fstype));
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}
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static int
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g_part_bsd_bootcode(struct g_part_table *basetable, struct g_part_parms *gpp)
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{
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struct g_part_bsd_table *table;
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const u_char *codeptr;
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if (gpp->gpp_codesize != BOOT1_SIZE && gpp->gpp_codesize != BBSIZE)
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return (ENODEV);
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table = (struct g_part_bsd_table *)basetable;
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codeptr = gpp->gpp_codeptr;
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bcopy(codeptr, table->bbarea, BOOT1_SIZE);
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if (gpp->gpp_codesize == BBSIZE)
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bcopy(codeptr + BOOT2_OFF, table->bbarea + BOOT2_OFF,
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BOOT2_SIZE);
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return (0);
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}
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static int
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g_part_bsd_create(struct g_part_table *basetable, struct g_part_parms *gpp)
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{
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struct g_provider *pp;
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struct g_part_entry *baseentry;
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struct g_part_bsd_entry *entry;
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struct g_part_bsd_table *table;
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u_char *ptr;
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uint32_t msize, ncyls, secpercyl;
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pp = gpp->gpp_provider;
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if (pp->sectorsize < sizeof(struct disklabel))
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return (ENOSPC);
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if (BBSIZE % pp->sectorsize)
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return (ENOTBLK);
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msize = MIN(pp->mediasize / pp->sectorsize, UINT32_MAX);
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secpercyl = basetable->gpt_sectors * basetable->gpt_heads;
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ncyls = msize / secpercyl;
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table = (struct g_part_bsd_table *)basetable;
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table->bbarea = g_malloc(BBSIZE, M_WAITOK | M_ZERO);
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ptr = table->bbarea + pp->sectorsize;
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le32enc(ptr + 0, DISKMAGIC); /* d_magic */
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le32enc(ptr + 40, pp->sectorsize); /* d_secsize */
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le32enc(ptr + 44, basetable->gpt_sectors); /* d_nsectors */
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le32enc(ptr + 48, basetable->gpt_heads); /* d_ntracks */
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le32enc(ptr + 52, ncyls); /* d_ncylinders */
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le32enc(ptr + 56, secpercyl); /* d_secpercyl */
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le32enc(ptr + 60, msize); /* d_secperunit */
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le16enc(ptr + 72, 3600); /* d_rpm */
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le32enc(ptr + 132, DISKMAGIC); /* d_magic2 */
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le16enc(ptr + 138, basetable->gpt_entries); /* d_npartitions */
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le32enc(ptr + 140, BBSIZE); /* d_bbsize */
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basetable->gpt_first = 0;
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basetable->gpt_last = msize - 1;
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basetable->gpt_isleaf = 1;
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baseentry = g_part_new_entry(basetable, RAW_PART + 1,
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basetable->gpt_first, basetable->gpt_last);
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baseentry->gpe_internal = 1;
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entry = (struct g_part_bsd_entry *)baseentry;
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entry->part.p_size = basetable->gpt_last + 1;
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entry->part.p_offset = table->offset;
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return (0);
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}
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static int
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g_part_bsd_destroy(struct g_part_table *basetable, struct g_part_parms *gpp)
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{
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struct g_part_bsd_table *table;
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table = (struct g_part_bsd_table *)basetable;
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if (table->bbarea != NULL)
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g_free(table->bbarea);
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table->bbarea = NULL;
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/* Wipe the second sector to clear the partitioning. */
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basetable->gpt_smhead |= 2;
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return (0);
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}
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static void
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g_part_bsd_dumpconf(struct g_part_table *table, struct g_part_entry *baseentry,
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struct sbuf *sb, const char *indent)
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{
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struct g_part_bsd_entry *entry;
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entry = (struct g_part_bsd_entry *)baseentry;
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if (indent == NULL) {
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/* conftxt: libdisk compatibility */
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sbuf_printf(sb, " xs BSD xt %u", entry->part.p_fstype);
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} else if (entry != NULL) {
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/* confxml: partition entry information */
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sbuf_printf(sb, "%s<rawtype>%u</rawtype>\n", indent,
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entry->part.p_fstype);
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} else {
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/* confxml: scheme information */
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}
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}
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static int
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g_part_bsd_dumpto(struct g_part_table *table, struct g_part_entry *baseentry)
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{
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struct g_part_bsd_entry *entry;
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/* Allow dumping to a swap partition or an unused partition. */
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entry = (struct g_part_bsd_entry *)baseentry;
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return ((entry->part.p_fstype == FS_UNUSED ||
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entry->part.p_fstype == FS_SWAP) ? 1 : 0);
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}
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static int
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g_part_bsd_modify(struct g_part_table *basetable,
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struct g_part_entry *baseentry, struct g_part_parms *gpp)
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{
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struct g_part_bsd_entry *entry;
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if (gpp->gpp_parms & G_PART_PARM_LABEL)
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return (EINVAL);
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entry = (struct g_part_bsd_entry *)baseentry;
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if (gpp->gpp_parms & G_PART_PARM_TYPE)
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return (bsd_parse_type(gpp->gpp_type, &entry->part.p_fstype));
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return (0);
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}
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static void
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bsd_set_rawsize(struct g_part_table *basetable, struct g_provider *pp)
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{
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struct g_part_bsd_table *table;
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struct g_part_bsd_entry *entry;
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struct g_part_entry *baseentry;
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uint32_t msize;
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table = (struct g_part_bsd_table *)basetable;
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msize = MIN(pp->mediasize / pp->sectorsize, UINT32_MAX);
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le32enc(table->bbarea + pp->sectorsize + 60, msize); /* d_secperunit */
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basetable->gpt_last = msize - 1;
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LIST_FOREACH(baseentry, &basetable->gpt_entry, gpe_entry) {
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if (baseentry->gpe_index != RAW_PART + 1)
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continue;
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baseentry->gpe_end = basetable->gpt_last;
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entry = (struct g_part_bsd_entry *)baseentry;
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entry->part.p_size = msize;
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return;
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}
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}
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static int
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g_part_bsd_resize(struct g_part_table *basetable,
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struct g_part_entry *baseentry, struct g_part_parms *gpp)
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{
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struct g_part_bsd_entry *entry;
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struct g_provider *pp;
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if (baseentry == NULL) {
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pp = LIST_FIRST(&basetable->gpt_gp->consumer)->provider;
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bsd_set_rawsize(basetable, pp);
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return (0);
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}
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entry = (struct g_part_bsd_entry *)baseentry;
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baseentry->gpe_end = baseentry->gpe_start + gpp->gpp_size - 1;
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entry->part.p_size = gpp->gpp_size;
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return (0);
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}
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static const char *
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g_part_bsd_name(struct g_part_table *table, struct g_part_entry *baseentry,
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char *buf, size_t bufsz)
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{
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snprintf(buf, bufsz, "%c", 'a' + baseentry->gpe_index - 1);
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return (buf);
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}
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static int
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g_part_bsd_probe(struct g_part_table *table, struct g_consumer *cp)
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{
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struct g_provider *pp;
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u_char *buf;
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uint32_t magic1, magic2;
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int error;
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pp = cp->provider;
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/* Sanity-check the provider. */
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if (pp->sectorsize < sizeof(struct disklabel) ||
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pp->mediasize < BBSIZE)
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return (ENOSPC);
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if (BBSIZE % pp->sectorsize)
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return (ENOTBLK);
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/* Check that there's a disklabel. */
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buf = g_read_data(cp, pp->sectorsize, pp->sectorsize, &error);
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if (buf == NULL)
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return (error);
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magic1 = le32dec(buf + 0);
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magic2 = le32dec(buf + 132);
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g_free(buf);
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return ((magic1 == DISKMAGIC && magic2 == DISKMAGIC)
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? G_PART_PROBE_PRI_HIGH : ENXIO);
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}
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static int
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g_part_bsd_read(struct g_part_table *basetable, struct g_consumer *cp)
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{
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struct g_provider *pp;
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struct g_part_bsd_table *table;
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struct g_part_entry *baseentry;
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struct g_part_bsd_entry *entry;
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struct partition part;
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u_char *buf, *p;
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off_t chs, msize;
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u_int sectors, heads;
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int error, index;
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pp = cp->provider;
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table = (struct g_part_bsd_table *)basetable;
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msize = MIN(pp->mediasize / pp->sectorsize, UINT32_MAX);
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table->bbarea = g_read_data(cp, 0, BBSIZE, &error);
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if (table->bbarea == NULL)
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return (error);
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buf = table->bbarea + pp->sectorsize;
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if (le32dec(buf + 40) != pp->sectorsize)
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goto invalid_label;
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sectors = le32dec(buf + 44);
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if (sectors < 1 || sectors > 255)
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goto invalid_label;
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if (sectors != basetable->gpt_sectors && !basetable->gpt_fixgeom) {
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g_part_geometry_heads(msize, sectors, &chs, &heads);
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if (chs != 0) {
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basetable->gpt_sectors = sectors;
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basetable->gpt_heads = heads;
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}
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}
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heads = le32dec(buf + 48);
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if (heads < 1 || heads > 255)
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goto invalid_label;
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if (heads != basetable->gpt_heads && !basetable->gpt_fixgeom)
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basetable->gpt_heads = heads;
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chs = le32dec(buf + 60);
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if (chs < 1)
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goto invalid_label;
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/* Fix-up a sysinstall bug. */
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if (chs > msize) {
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chs = msize;
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le32enc(buf + 60, msize);
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}
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basetable->gpt_first = 0;
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basetable->gpt_last = msize - 1;
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basetable->gpt_isleaf = 1;
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basetable->gpt_entries = le16dec(buf + 138);
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if (basetable->gpt_entries < g_part_bsd_scheme.gps_minent ||
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basetable->gpt_entries > g_part_bsd_scheme.gps_maxent)
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goto invalid_label;
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table->offset = le32dec(buf + 148 + RAW_PART * 16 + 4);
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for (index = basetable->gpt_entries - 1; index >= 0; index--) {
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|
p = buf + 148 + index * 16;
|
|
part.p_size = le32dec(p + 0);
|
|
part.p_offset = le32dec(p + 4);
|
|
part.p_fsize = le32dec(p + 8);
|
|
part.p_fstype = p[12];
|
|
part.p_frag = p[13];
|
|
part.p_cpg = le16dec(p + 14);
|
|
if (part.p_size == 0)
|
|
continue;
|
|
if (part.p_offset < table->offset)
|
|
continue;
|
|
if (part.p_offset - table->offset > basetable->gpt_last)
|
|
goto invalid_label;
|
|
baseentry = g_part_new_entry(basetable, index + 1,
|
|
part.p_offset - table->offset,
|
|
part.p_offset - table->offset + part.p_size - 1);
|
|
entry = (struct g_part_bsd_entry *)baseentry;
|
|
entry->part = part;
|
|
if (index == RAW_PART)
|
|
baseentry->gpe_internal = 1;
|
|
}
|
|
|
|
return (0);
|
|
|
|
invalid_label:
|
|
printf("GEOM: %s: invalid disklabel.\n", pp->name);
|
|
g_free(table->bbarea);
|
|
table->bbarea = NULL;
|
|
return (EINVAL);
|
|
}
|
|
|
|
static const char *
|
|
g_part_bsd_type(struct g_part_table *basetable, struct g_part_entry *baseentry,
|
|
char *buf, size_t bufsz)
|
|
{
|
|
struct g_part_bsd_entry *entry;
|
|
int type;
|
|
|
|
entry = (struct g_part_bsd_entry *)baseentry;
|
|
type = entry->part.p_fstype;
|
|
if (type == FS_NANDFS)
|
|
return (g_part_alias_name(G_PART_ALIAS_FREEBSD_NANDFS));
|
|
if (type == FS_SWAP)
|
|
return (g_part_alias_name(G_PART_ALIAS_FREEBSD_SWAP));
|
|
if (type == FS_BSDFFS)
|
|
return (g_part_alias_name(G_PART_ALIAS_FREEBSD_UFS));
|
|
if (type == FS_VINUM)
|
|
return (g_part_alias_name(G_PART_ALIAS_FREEBSD_VINUM));
|
|
if (type == FS_ZFS)
|
|
return (g_part_alias_name(G_PART_ALIAS_FREEBSD_ZFS));
|
|
snprintf(buf, bufsz, "!%d", type);
|
|
return (buf);
|
|
}
|
|
|
|
static int
|
|
g_part_bsd_write(struct g_part_table *basetable, struct g_consumer *cp)
|
|
{
|
|
struct g_provider *pp;
|
|
struct g_part_entry *baseentry;
|
|
struct g_part_bsd_entry *entry;
|
|
struct g_part_bsd_table *table;
|
|
uint16_t sum;
|
|
u_char *label, *p, *pe;
|
|
int error, index;
|
|
|
|
pp = cp->provider;
|
|
table = (struct g_part_bsd_table *)basetable;
|
|
baseentry = LIST_FIRST(&basetable->gpt_entry);
|
|
label = table->bbarea + pp->sectorsize;
|
|
for (index = 1; index <= basetable->gpt_entries; index++) {
|
|
p = label + 148 + (index - 1) * 16;
|
|
entry = (baseentry != NULL && index == baseentry->gpe_index)
|
|
? (struct g_part_bsd_entry *)baseentry : NULL;
|
|
if (entry != NULL && !baseentry->gpe_deleted) {
|
|
le32enc(p + 0, entry->part.p_size);
|
|
le32enc(p + 4, entry->part.p_offset);
|
|
le32enc(p + 8, entry->part.p_fsize);
|
|
p[12] = entry->part.p_fstype;
|
|
p[13] = entry->part.p_frag;
|
|
le16enc(p + 14, entry->part.p_cpg);
|
|
} else
|
|
bzero(p, 16);
|
|
|
|
if (entry != NULL)
|
|
baseentry = LIST_NEXT(baseentry, gpe_entry);
|
|
}
|
|
|
|
/* Calculate checksum. */
|
|
le16enc(label + 136, 0);
|
|
pe = label + 148 + basetable->gpt_entries * 16;
|
|
sum = 0;
|
|
for (p = label; p < pe; p += 2)
|
|
sum ^= le16dec(p);
|
|
le16enc(label + 136, sum);
|
|
|
|
error = g_write_data(cp, 0, table->bbarea, BBSIZE);
|
|
return (error);
|
|
}
|