grub/grub-core/fs/zfs/zfs.c

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/*
* GRUB -- GRand Unified Bootloader
2011-11-06 13:44:29 +00:00
* Copyright (C) 1999,2000,2001,2002,2003,2004,2009,2010,2011 Free Software Foundation, Inc.
* Copyright 2010 Sun Microsystems, Inc.
* Copyright (c) 2012 by Delphix. All rights reserved.
*
* GRUB is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* GRUB is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GRUB. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* The zfs plug-in routines for GRUB are:
*
* zfs_mount() - locates a valid uberblock of the root pool and reads
* in its MOS at the memory address MOS.
*
* zfs_open() - locates a plain file object by following the MOS
* and places its dnode at the memory address DNODE.
*
* zfs_read() - read in the data blocks pointed by the DNODE.
*
*/
#include <grub/err.h>
#include <grub/file.h>
#include <grub/mm.h>
#include <grub/misc.h>
#include <grub/disk.h>
#include <grub/partition.h>
#include <grub/dl.h>
#include <grub/types.h>
#include <grub/zfs/zfs.h>
#include <grub/zfs/zio.h>
#include <grub/zfs/dnode.h>
#include <grub/zfs/uberblock_impl.h>
#include <grub/zfs/vdev_impl.h>
#include <grub/zfs/zio_checksum.h>
#include <grub/zfs/zap_impl.h>
#include <grub/zfs/zap_leaf.h>
#include <grub/zfs/zfs_znode.h>
#include <grub/zfs/dmu.h>
#include <grub/zfs/dmu_objset.h>
#include <grub/zfs/sa_impl.h>
#include <grub/zfs/dsl_dir.h>
#include <grub/zfs/dsl_dataset.h>
#include <grub/deflate.h>
#include <grub/crypto.h>
#include <grub/i18n.h>
#include <grub/safemath.h>
GRUB_MOD_LICENSE ("GPLv3+");
#define ZPOOL_PROP_BOOTFS "bootfs"
/*
* For nvlist manipulation. (from nvpair.h)
*/
#define NV_ENCODE_NATIVE 0
#define NV_ENCODE_XDR 1
#define NV_BIG_ENDIAN 0
#define NV_LITTLE_ENDIAN 1
#define DATA_TYPE_UINT64 8
#define DATA_TYPE_STRING 9
#define DATA_TYPE_NVLIST 19
#define DATA_TYPE_NVLIST_ARRAY 20
#ifndef GRUB_UTIL
static grub_dl_t my_mod;
#endif
#define P2PHASE(x, align) ((x) & ((align) - 1))
static inline grub_disk_addr_t
DVA_OFFSET_TO_PHYS_SECTOR (grub_disk_addr_t offset)
{
return ((offset + VDEV_LABEL_START_SIZE) >> SPA_MINBLOCKSHIFT);
}
/*
* FAT ZAP data structures
*/
#define ZFS_CRC64_POLY 0xC96C5795D7870F42ULL /* ECMA-182, reflected form */
static inline grub_uint64_t
ZAP_HASH_IDX (grub_uint64_t hash, grub_uint64_t n)
{
return (((n) == 0) ? 0 : ((hash) >> (64 - (n))));
}
#define CHAIN_END 0xffff /* end of the chunk chain */
/*
* The amount of space within the chunk available for the array is:
* chunk size - space for type (1) - space for next pointer (2)
*/
#define ZAP_LEAF_ARRAY_BYTES (ZAP_LEAF_CHUNKSIZE - 3)
static inline int
ZAP_LEAF_HASH_SHIFT (int bs)
{
return bs - 5;
}
static inline int
ZAP_LEAF_HASH_NUMENTRIES (int bs)
{
return 1 << ZAP_LEAF_HASH_SHIFT(bs);
}
static inline grub_size_t
LEAF_HASH (int bs, grub_uint64_t h, zap_leaf_phys_t *l)
{
return ((ZAP_LEAF_HASH_NUMENTRIES (bs)-1)
& ((h) >> (64 - ZAP_LEAF_HASH_SHIFT (bs) - l->l_hdr.lh_prefix_len)));
}
/*
* The amount of space available for chunks is:
* block size shift - hash entry size (2) * number of hash
* entries - header space (2*chunksize)
*/
static inline int
ZAP_LEAF_NUMCHUNKS (int bs)
{
return (((1U << bs) - 2 * ZAP_LEAF_HASH_NUMENTRIES (bs)) /
ZAP_LEAF_CHUNKSIZE - 2);
}
/*
* The chunks start immediately after the hash table. The end of the
* hash table is at l_hash + HASH_NUMENTRIES, which we simply cast to a
* chunk_t.
*/
static inline zap_leaf_chunk_t *
ZAP_LEAF_CHUNK (zap_leaf_phys_t *l, int bs, int idx)
{
zfs: Fix gcc10 error -Werror=zero-length-bounds We bumped into the build error while testing gcc-10 pre-release. In file included from ../../include/grub/file.h:22, from ../../grub-core/fs/zfs/zfs.c:34: ../../grub-core/fs/zfs/zfs.c: In function 'zap_leaf_lookup': ../../grub-core/fs/zfs/zfs.c:2263:44: error: array subscript '<unknown>' is outside the bounds of an interior zero-length array 'grub_uint16_t[0]' {aka 'short unsigned int[0]'} [-Werror=zero-length-bounds] 2263 | for (chunk = grub_zfs_to_cpu16 (l->l_hash[LEAF_HASH (blksft, h, l)], endian); ../../include/grub/types.h:241:48: note: in definition of macro 'grub_le_to_cpu16' 241 | # define grub_le_to_cpu16(x) ((grub_uint16_t) (x)) | ^ ../../grub-core/fs/zfs/zfs.c:2263:16: note: in expansion of macro 'grub_zfs_to_cpu16' 2263 | for (chunk = grub_zfs_to_cpu16 (l->l_hash[LEAF_HASH (blksft, h, l)], endian); | ^~~~~~~~~~~~~~~~~ In file included from ../../grub-core/fs/zfs/zfs.c:48: ../../include/grub/zfs/zap_leaf.h:72:16: note: while referencing 'l_hash' 72 | grub_uint16_t l_hash[0]; | ^~~~~~ Here I'd like to quote from the gcc document [1] which seems best to explain what is going on here. "Although the size of a zero-length array is zero, an array member of this kind may increase the size of the enclosing type as a result of tail padding. The offset of a zero-length array member from the beginning of the enclosing structure is the same as the offset of an array with one or more elements of the same type. The alignment of a zero-length array is the same as the alignment of its elements. Declaring zero-length arrays in other contexts, including as interior members of structure objects or as non-member objects, is discouraged. Accessing elements of zero-length arrays declared in such contexts is undefined and may be diagnosed." The l_hash[0] is apparnetly an interior member to the enclosed structure while l_entries[0] is the trailing member. And the offending code tries to access members in l_hash[0] array that triggers the diagnose. Given that the l_entries[0] is used to get proper alignment to access leaf chunks, we can accomplish the same thing through the ALIGN_UP macro thus eliminating l_entries[0] from the structure. In this way we can pacify the warning as l_hash[0] now becomes the last member to the enclosed structure. [1] https://gcc.gnu.org/onlinedocs/gcc/Zero-Length.html Signed-off-by: Michael Chang <mchang@suse.com> Reviewed-by: Daniel Kiper <daniel.kiper@oracle.com>
2020-03-26 06:35:35 +00:00
grub_properly_aligned_t *l_entries;
l_entries = (grub_properly_aligned_t *) ALIGN_UP((grub_addr_t)l->l_hash, sizeof (grub_properly_aligned_t));
return &((zap_leaf_chunk_t *) (l_entries
+ (ZAP_LEAF_HASH_NUMENTRIES(bs) * 2)
/ sizeof (grub_properly_aligned_t)))[idx];
}
static inline struct zap_leaf_entry *
ZAP_LEAF_ENTRY(zap_leaf_phys_t *l, int bs, int idx)
{
return &ZAP_LEAF_CHUNK(l, bs, idx)->l_entry;
}
/*
* Decompression Entry - lzjb & lz4
*/
extern grub_err_t lzjb_decompress (void *, void *, grub_size_t, grub_size_t);
extern grub_err_t lz4_decompress (void *, void *, grub_size_t, grub_size_t);
typedef grub_err_t zfs_decomp_func_t (void *s_start, void *d_start,
grub_size_t s_len, grub_size_t d_len);
typedef struct decomp_entry
{
Add missing const qualifiers. * grub-core/commands/i386/pc/sendkey.c (keysym): Add missing const. * grub-core/commands/lspci.c (grub_pci_classname): Likewise. * grub-core/commands/menuentry.c (hotkey_aliases): Likewise. * grub-core/disk/lvm.c (grub_lvm_getvalue): Likewise. (grub_lvm_check_flag): Likewise. * grub-core/efiemu/i386/coredetect.c (grub_efiemu_get_default_core_name): Likewise * grub-core/efiemu/main.c (grub_efiemu_autocore): Likewise. * grub-core/fs/hfsplus.c (grub_hfsplus_catkey_internal): Likewise. * grub-core/fs/ntfs.c (fixup): Likewise. * grub-core/fs/xfs.c (grub_xfs_iterate_dir): Likewise. * grub-core/fs/zfs/zfs.c (decomp_entry): Likewise. (fzap_lookup): Likewise. (zap_lookup): Likewise. * grub-core/gnulib/regcomp.c (init_dfa): Likewise. * grub-core/lib/legacy_parse.c (check_option): Likewise. * grub-core/lib/posix_wrap/langinfo.h (nl_langinfo): Likewise. * grub-core/loader/i386/bsd.c (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. (grub_cmd_freebsd_module): Likewise. * grub-core/loader/i386/xnu.c (tbl_alias): Likewise. * grub-core/loader/xnu.c (grub_xnu_register_memory): Likewise. (grub_xnu_writetree_get_size): Likewise. (grub_xnu_writetree_toheap_real): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_register_memory): Likewise. (grub_xnu_check_os_bundle_required): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * grub-core/normal/color.c (color_list): Likewise. * grub-core/normal/completion.c (current_word): Likewise. * grub-core/normal/menu_entry.c (insert_string): Likewise. * grub-core/term/serial.c (grub_serial_find): Likewise. * grub-core/term/tparm.c (grub_terminfo_tparm): Likewise. * include/grub/efiemu/efiemu.h (grub_efiemu_get_default_core_name): Likewise. * include/grub/i386/bsd.h (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. * include/grub/lib/arg.h (grub_arg_option): Likewise. * include/grub/net.h (grub_net_card_driver): Likewise. (grub_net_card): Likewise. (grub_net_app_protocol): Likewise. * include/grub/parttool.h (grub_parttool_argdesc): Likewise. * include/grub/serial.h (grub_serial_find): Likewise. * include/grub/tparm.h (grub_terminfo_tparm): Likewise. * include/grub/xnu.h (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * include/grub/zfs/zio_checksum.h (zio_checksum_t): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_t): ...here. * include/grub/zfs/zio_checksum.h (zio_checksum_info): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_info): ... here. Added missing const.
2011-11-30 15:20:13 +00:00
const char *name;
zfs_decomp_func_t *decomp_func;
} decomp_entry_t;
Add missing const qualifiers. * grub-core/commands/i386/pc/sendkey.c (keysym): Add missing const. * grub-core/commands/lspci.c (grub_pci_classname): Likewise. * grub-core/commands/menuentry.c (hotkey_aliases): Likewise. * grub-core/disk/lvm.c (grub_lvm_getvalue): Likewise. (grub_lvm_check_flag): Likewise. * grub-core/efiemu/i386/coredetect.c (grub_efiemu_get_default_core_name): Likewise * grub-core/efiemu/main.c (grub_efiemu_autocore): Likewise. * grub-core/fs/hfsplus.c (grub_hfsplus_catkey_internal): Likewise. * grub-core/fs/ntfs.c (fixup): Likewise. * grub-core/fs/xfs.c (grub_xfs_iterate_dir): Likewise. * grub-core/fs/zfs/zfs.c (decomp_entry): Likewise. (fzap_lookup): Likewise. (zap_lookup): Likewise. * grub-core/gnulib/regcomp.c (init_dfa): Likewise. * grub-core/lib/legacy_parse.c (check_option): Likewise. * grub-core/lib/posix_wrap/langinfo.h (nl_langinfo): Likewise. * grub-core/loader/i386/bsd.c (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. (grub_cmd_freebsd_module): Likewise. * grub-core/loader/i386/xnu.c (tbl_alias): Likewise. * grub-core/loader/xnu.c (grub_xnu_register_memory): Likewise. (grub_xnu_writetree_get_size): Likewise. (grub_xnu_writetree_toheap_real): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_register_memory): Likewise. (grub_xnu_check_os_bundle_required): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * grub-core/normal/color.c (color_list): Likewise. * grub-core/normal/completion.c (current_word): Likewise. * grub-core/normal/menu_entry.c (insert_string): Likewise. * grub-core/term/serial.c (grub_serial_find): Likewise. * grub-core/term/tparm.c (grub_terminfo_tparm): Likewise. * include/grub/efiemu/efiemu.h (grub_efiemu_get_default_core_name): Likewise. * include/grub/i386/bsd.h (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. * include/grub/lib/arg.h (grub_arg_option): Likewise. * include/grub/net.h (grub_net_card_driver): Likewise. (grub_net_card): Likewise. (grub_net_app_protocol): Likewise. * include/grub/parttool.h (grub_parttool_argdesc): Likewise. * include/grub/serial.h (grub_serial_find): Likewise. * include/grub/tparm.h (grub_terminfo_tparm): Likewise. * include/grub/xnu.h (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * include/grub/zfs/zio_checksum.h (zio_checksum_t): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_t): ...here. * include/grub/zfs/zio_checksum.h (zio_checksum_info): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_info): ... here. Added missing const.
2011-11-30 15:20:13 +00:00
/*
* Signature for checksum functions.
*/
typedef void zio_checksum_t(const void *data, grub_uint64_t size,
grub_zfs_endian_t endian, zio_cksum_t *zcp);
/*
* Information about each checksum function.
*/
typedef struct zio_checksum_info {
zio_checksum_t *ci_func; /* checksum function for each byteorder */
int ci_correctable; /* number of correctable bits */
int ci_eck; /* uses zio embedded checksum? */
const char *ci_name; /* descriptive name */
Add missing const qualifiers. * grub-core/commands/i386/pc/sendkey.c (keysym): Add missing const. * grub-core/commands/lspci.c (grub_pci_classname): Likewise. * grub-core/commands/menuentry.c (hotkey_aliases): Likewise. * grub-core/disk/lvm.c (grub_lvm_getvalue): Likewise. (grub_lvm_check_flag): Likewise. * grub-core/efiemu/i386/coredetect.c (grub_efiemu_get_default_core_name): Likewise * grub-core/efiemu/main.c (grub_efiemu_autocore): Likewise. * grub-core/fs/hfsplus.c (grub_hfsplus_catkey_internal): Likewise. * grub-core/fs/ntfs.c (fixup): Likewise. * grub-core/fs/xfs.c (grub_xfs_iterate_dir): Likewise. * grub-core/fs/zfs/zfs.c (decomp_entry): Likewise. (fzap_lookup): Likewise. (zap_lookup): Likewise. * grub-core/gnulib/regcomp.c (init_dfa): Likewise. * grub-core/lib/legacy_parse.c (check_option): Likewise. * grub-core/lib/posix_wrap/langinfo.h (nl_langinfo): Likewise. * grub-core/loader/i386/bsd.c (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. (grub_cmd_freebsd_module): Likewise. * grub-core/loader/i386/xnu.c (tbl_alias): Likewise. * grub-core/loader/xnu.c (grub_xnu_register_memory): Likewise. (grub_xnu_writetree_get_size): Likewise. (grub_xnu_writetree_toheap_real): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_register_memory): Likewise. (grub_xnu_check_os_bundle_required): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * grub-core/normal/color.c (color_list): Likewise. * grub-core/normal/completion.c (current_word): Likewise. * grub-core/normal/menu_entry.c (insert_string): Likewise. * grub-core/term/serial.c (grub_serial_find): Likewise. * grub-core/term/tparm.c (grub_terminfo_tparm): Likewise. * include/grub/efiemu/efiemu.h (grub_efiemu_get_default_core_name): Likewise. * include/grub/i386/bsd.h (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. * include/grub/lib/arg.h (grub_arg_option): Likewise. * include/grub/net.h (grub_net_card_driver): Likewise. (grub_net_card): Likewise. (grub_net_app_protocol): Likewise. * include/grub/parttool.h (grub_parttool_argdesc): Likewise. * include/grub/serial.h (grub_serial_find): Likewise. * include/grub/tparm.h (grub_terminfo_tparm): Likewise. * include/grub/xnu.h (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * include/grub/zfs/zio_checksum.h (zio_checksum_t): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_t): ...here. * include/grub/zfs/zio_checksum.h (zio_checksum_info): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_info): ... here. Added missing const.
2011-11-30 15:20:13 +00:00
} zio_checksum_info_t;
typedef struct dnode_end
{
dnode_phys_t dn;
grub_zfs_endian_t endian;
} dnode_end_t;
2010-12-05 20:17:24 +00:00
struct grub_zfs_device_desc
{
enum { DEVICE_LEAF, DEVICE_MIRROR, DEVICE_RAIDZ } type;
2010-12-05 20:17:24 +00:00
grub_uint64_t id;
2010-12-06 01:31:22 +00:00
grub_uint64_t guid;
unsigned ashift;
unsigned max_children_ashift;
2010-12-06 01:31:22 +00:00
/* Valid only for non-leafs. */
unsigned n_children;
struct grub_zfs_device_desc *children;
/* Valid only for RAIDZ. */
unsigned nparity;
2010-12-06 01:31:22 +00:00
/* Valid only for leaf devices. */
grub_device_t dev;
2010-12-05 20:17:24 +00:00
grub_disk_addr_t vdev_phys_sector;
uberblock_t current_uberblock;
2010-12-06 01:31:22 +00:00
int original;
2010-12-05 20:17:24 +00:00
};
struct subvolume
{
dnode_end_t mdn;
grub_uint64_t obj;
grub_uint64_t case_insensitive;
grub_size_t nkeys;
struct
{
grub_crypto_cipher_handle_t cipher;
grub_uint64_t txg;
2011-11-06 20:05:25 +00:00
grub_uint64_t algo;
} *keyring;
};
struct grub_zfs_data
{
/* cache for a file block of the currently zfs_open()-ed file */
char *file_buf;
grub_uint64_t file_start;
grub_uint64_t file_end;
/* cache for a dnode block */
dnode_phys_t *dnode_buf;
dnode_phys_t *dnode_mdn;
grub_uint64_t dnode_start;
grub_uint64_t dnode_end;
grub_zfs_endian_t dnode_endian;
dnode_end_t mos;
dnode_end_t dnode;
struct subvolume subvol;
2010-12-05 20:17:24 +00:00
struct grub_zfs_device_desc *devices_attached;
unsigned n_devices_attached;
unsigned n_devices_allocated;
struct grub_zfs_device_desc *device_original;
2010-12-05 20:17:24 +00:00
2010-12-06 01:31:22 +00:00
uberblock_t current_uberblock;
2010-12-05 20:17:24 +00:00
grub_uint64_t guid;
};
/* Context for grub_zfs_dir. */
struct grub_zfs_dir_ctx
{
grub_fs_dir_hook_t hook;
void *hook_data;
struct grub_zfs_data *data;
};
2011-11-06 14:18:25 +00:00
grub_err_t (*grub_zfs_decrypt) (grub_crypto_cipher_handle_t cipher,
2011-11-06 20:05:25 +00:00
grub_uint64_t algo,
2011-11-06 14:18:25 +00:00
void *nonce,
char *buf, grub_size_t size,
const grub_uint32_t *expected_mac,
grub_zfs_endian_t endian) = NULL;
grub_crypto_cipher_handle_t (*grub_zfs_load_key) (const struct grub_zfs_key *key,
2011-11-06 15:30:52 +00:00
grub_size_t keysize,
2011-11-06 20:05:25 +00:00
grub_uint64_t salt,
grub_uint64_t algo) = NULL;
/*
* List of pool features that the grub implementation of ZFS supports for
* read. Note that features that are only required for write do not need
* to be listed here since grub opens pools in read-only mode.
*/
#define MAX_SUPPORTED_FEATURE_STRLEN 50
static const char *spa_feature_names[] = {
"org.illumos:lz4_compress",
"com.delphix:hole_birth",
"com.delphix:embedded_data",
"com.delphix:extensible_dataset",
"org.open-zfs:large_blocks",
NULL
};
static int
check_feature(const char *name, grub_uint64_t val, struct grub_zfs_dir_ctx *ctx);
static grub_err_t
check_mos_features(dnode_phys_t *mosmdn_phys,grub_zfs_endian_t endian,struct grub_zfs_data* data );
2011-11-06 13:44:29 +00:00
static grub_err_t
zlib_decompress (void *s, void *d,
grub_size_t slen, grub_size_t dlen)
{
if (grub_zlib_decompress (s, slen, 0, d, dlen) == (grub_ssize_t) dlen)
return GRUB_ERR_NONE;
if (!grub_errno)
grub_error (GRUB_ERR_BAD_COMPRESSED_DATA,
"premature end of compressed");
return grub_errno;
}
static grub_err_t
zle_decompress (void *s, void *d,
grub_size_t slen, grub_size_t dlen)
{
grub_uint8_t *iptr, *optr;
grub_size_t clen;
for (iptr = s, optr = d; iptr < (grub_uint8_t *) s + slen
&& optr < (grub_uint8_t *) d + dlen;)
{
if (*iptr & 0x80)
clen = ((*iptr) & 0x7f) + 0x41;
else
clen = ((*iptr) & 0x3f) + 1;
if ((grub_ssize_t) clen > (grub_uint8_t *) d + dlen - optr)
clen = (grub_uint8_t *) d + dlen - optr;
if (*iptr & 0x40 || *iptr & 0x80)
{
grub_memset (optr, 0, clen);
iptr++;
optr += clen;
continue;
}
if ((grub_ssize_t) clen > (grub_uint8_t *) s + slen - iptr - 1)
clen = (grub_uint8_t *) s + slen - iptr - 1;
grub_memcpy (optr, iptr + 1, clen);
optr += clen;
iptr += clen + 1;
}
if (optr < (grub_uint8_t *) d + dlen)
grub_memset (optr, 0, (grub_uint8_t *) d + dlen - optr);
return GRUB_ERR_NONE;
}
static decomp_entry_t decomp_table[ZIO_COMPRESS_FUNCTIONS] = {
{"inherit", NULL}, /* ZIO_COMPRESS_INHERIT */
{"on", lzjb_decompress}, /* ZIO_COMPRESS_ON */
{"off", NULL}, /* ZIO_COMPRESS_OFF */
{"lzjb", lzjb_decompress}, /* ZIO_COMPRESS_LZJB */
{"empty", NULL}, /* ZIO_COMPRESS_EMPTY */
{"gzip-1", zlib_decompress}, /* ZIO_COMPRESS_GZIP1 */
{"gzip-2", zlib_decompress}, /* ZIO_COMPRESS_GZIP2 */
{"gzip-3", zlib_decompress}, /* ZIO_COMPRESS_GZIP3 */
{"gzip-4", zlib_decompress}, /* ZIO_COMPRESS_GZIP4 */
{"gzip-5", zlib_decompress}, /* ZIO_COMPRESS_GZIP5 */
{"gzip-6", zlib_decompress}, /* ZIO_COMPRESS_GZIP6 */
{"gzip-7", zlib_decompress}, /* ZIO_COMPRESS_GZIP7 */
{"gzip-8", zlib_decompress}, /* ZIO_COMPRESS_GZIP8 */
{"gzip-9", zlib_decompress}, /* ZIO_COMPRESS_GZIP9 */
{"zle", zle_decompress}, /* ZIO_COMPRESS_ZLE */
{"lz4", lz4_decompress}, /* ZIO_COMPRESS_LZ4 */
};
static grub_err_t zio_read_data (blkptr_t * bp, grub_zfs_endian_t endian,
void *buf, struct grub_zfs_data *data);
/*
* Our own version of log2(). Same thing as highbit()-1.
*/
static int
zfs_log2 (grub_uint64_t num)
{
int i = 0;
while (num > 1)
{
i++;
num = num >> 1;
}
return i;
}
/* Checksum Functions */
static void
zio_checksum_off (const void *buf __attribute__ ((unused)),
grub_uint64_t size __attribute__ ((unused)),
grub_zfs_endian_t endian __attribute__ ((unused)),
zio_cksum_t * zcp)
{
ZIO_SET_CHECKSUM (zcp, 0, 0, 0, 0);
}
/* Checksum Table and Values */
static zio_checksum_info_t zio_checksum_table[ZIO_CHECKSUM_FUNCTIONS] = {
{NULL, 0, 0, "inherit"},
{NULL, 0, 0, "on"},
{zio_checksum_off, 0, 0, "off"},
{zio_checksum_SHA256, 1, 1, "label"},
{zio_checksum_SHA256, 1, 1, "gang_header"},
{NULL, 0, 0, "zilog"},
{fletcher_2, 0, 0, "fletcher2"},
{fletcher_4, 1, 0, "fletcher4"},
{zio_checksum_SHA256, 1, 0, "SHA256"},
{NULL, 0, 0, "zilog2"},
{zio_checksum_SHA256, 1, 0, "SHA256+MAC"},
};
/*
* zio_checksum_verify: Provides support for checksum verification.
*
* Fletcher2, Fletcher4, and SHA256 are supported.
*
*/
static grub_err_t
zio_checksum_verify (zio_cksum_t zc, grub_uint32_t checksum,
grub_zfs_endian_t endian,
char *buf, grub_size_t size)
{
zio_eck_t *zec = (zio_eck_t *) (buf + size) - 1;
zio_checksum_info_t *ci = &zio_checksum_table[checksum];
zio_cksum_t actual_cksum, expected_cksum;
if (checksum >= ZIO_CHECKSUM_FUNCTIONS || ci->ci_func == NULL)
{
grub_dprintf ("zfs", "unknown checksum function %d\n", checksum);
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"unknown checksum function %d", checksum);
}
if (ci->ci_eck)
{
expected_cksum = zec->zec_cksum;
zec->zec_cksum = zc;
ci->ci_func (buf, size, endian, &actual_cksum);
zec->zec_cksum = expected_cksum;
zc = expected_cksum;
}
else
ci->ci_func (buf, size, endian, &actual_cksum);
if (grub_memcmp (&actual_cksum, &zc,
checksum != ZIO_CHECKSUM_SHA256_MAC ? 32 : 20) != 0)
{
grub_dprintf ("zfs", "checksum %s verification failed\n", ci->ci_name);
grub_dprintf ("zfs", "actual checksum %016llx %016llx %016llx %016llx\n",
(unsigned long long) actual_cksum.zc_word[0],
(unsigned long long) actual_cksum.zc_word[1],
(unsigned long long) actual_cksum.zc_word[2],
(unsigned long long) actual_cksum.zc_word[3]);
grub_dprintf ("zfs", "expected checksum %016llx %016llx %016llx %016llx\n",
(unsigned long long) zc.zc_word[0],
(unsigned long long) zc.zc_word[1],
(unsigned long long) zc.zc_word[2],
(unsigned long long) zc.zc_word[3]);
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return grub_error (GRUB_ERR_BAD_FS, N_("checksum verification failed"));
}
return GRUB_ERR_NONE;
}
/*
* vdev_uberblock_compare takes two uberblock structures and returns an integer
* indicating the more recent of the two.
* Return Value = 1 if ub2 is more recent
* Return Value = -1 if ub1 is more recent
* The most recent uberblock is determined using its transaction number and
* timestamp. The uberblock with the highest transaction number is
* considered "newer". If the transaction numbers of the two blocks match, the
* timestamps are compared to determine the "newer" of the two.
*/
static int
vdev_uberblock_compare (uberblock_t * ub1, uberblock_t * ub2)
{
grub_zfs_endian_t ub1_endian, ub2_endian;
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if (grub_zfs_to_cpu64 (ub1->ub_magic, GRUB_ZFS_LITTLE_ENDIAN)
== UBERBLOCK_MAGIC)
ub1_endian = GRUB_ZFS_LITTLE_ENDIAN;
else
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ub1_endian = GRUB_ZFS_BIG_ENDIAN;
if (grub_zfs_to_cpu64 (ub2->ub_magic, GRUB_ZFS_LITTLE_ENDIAN)
== UBERBLOCK_MAGIC)
ub2_endian = GRUB_ZFS_LITTLE_ENDIAN;
else
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ub2_endian = GRUB_ZFS_BIG_ENDIAN;
if (grub_zfs_to_cpu64 (ub1->ub_txg, ub1_endian)
< grub_zfs_to_cpu64 (ub2->ub_txg, ub2_endian))
return -1;
if (grub_zfs_to_cpu64 (ub1->ub_txg, ub1_endian)
> grub_zfs_to_cpu64 (ub2->ub_txg, ub2_endian))
return 1;
if (grub_zfs_to_cpu64 (ub1->ub_timestamp, ub1_endian)
< grub_zfs_to_cpu64 (ub2->ub_timestamp, ub2_endian))
return -1;
if (grub_zfs_to_cpu64 (ub1->ub_timestamp, ub1_endian)
> grub_zfs_to_cpu64 (ub2->ub_timestamp, ub2_endian))
return 1;
return 0;
}
/*
* Three pieces of information are needed to verify an uberblock: the magic
* number, the version number, and the checksum.
*
* Currently Implemented: version number, magic number, checksum
*
*/
static grub_err_t
uberblock_verify (uberblock_phys_t * ub, grub_uint64_t offset,
grub_size_t s)
{
uberblock_t *uber = &ub->ubp_uberblock;
grub_err_t err;
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grub_zfs_endian_t endian = GRUB_ZFS_UNKNOWN_ENDIAN;
zio_cksum_t zc;
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if (grub_zfs_to_cpu64 (uber->ub_magic, GRUB_ZFS_LITTLE_ENDIAN)
== UBERBLOCK_MAGIC
&& SPA_VERSION_IS_SUPPORTED(grub_zfs_to_cpu64 (uber->ub_version, GRUB_ZFS_LITTLE_ENDIAN)))
endian = GRUB_ZFS_LITTLE_ENDIAN;
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if (grub_zfs_to_cpu64 (uber->ub_magic, GRUB_ZFS_BIG_ENDIAN) == UBERBLOCK_MAGIC
&& SPA_VERSION_IS_SUPPORTED(grub_zfs_to_cpu64 (uber->ub_version, GRUB_ZFS_BIG_ENDIAN)))
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endian = GRUB_ZFS_BIG_ENDIAN;
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if (endian == GRUB_ZFS_UNKNOWN_ENDIAN)
return grub_error (GRUB_ERR_BAD_FS, "invalid uberblock magic");
grub_memset (&zc, 0, sizeof (zc));
zc.zc_word[0] = grub_cpu_to_zfs64 (offset, endian);
err = zio_checksum_verify (zc, ZIO_CHECKSUM_LABEL, endian,
(char *) ub, s);
return err;
}
/*
* Find the best uberblock.
* Return:
* Success - Pointer to the best uberblock.
* Failure - NULL
*/
static uberblock_phys_t *
find_bestub (uberblock_phys_t * ub_array,
const struct grub_zfs_device_desc *desc)
{
uberblock_phys_t *ubbest = NULL, *ubptr;
int i;
grub_disk_addr_t offset;
grub_err_t err = GRUB_ERR_NONE;
int ub_shift;
ub_shift = desc->ashift;
if (ub_shift < VDEV_UBERBLOCK_SHIFT)
ub_shift = VDEV_UBERBLOCK_SHIFT;
for (i = 0; i < (VDEV_UBERBLOCK_RING >> ub_shift); i++)
{
offset = (desc->vdev_phys_sector << SPA_MINBLOCKSHIFT) + VDEV_PHYS_SIZE
+ (i << ub_shift);
ubptr = (uberblock_phys_t *) ((grub_properly_aligned_t *) ub_array
+ ((i << ub_shift)
/ sizeof (grub_properly_aligned_t)));
err = uberblock_verify (ubptr, offset, 1 << ub_shift);
if (err)
{
grub_errno = GRUB_ERR_NONE;
continue;
}
if (ubbest == NULL
|| vdev_uberblock_compare (&(ubptr->ubp_uberblock),
&(ubbest->ubp_uberblock)) > 0)
ubbest = ubptr;
}
if (!ubbest)
grub_errno = err;
return ubbest;
}
static inline grub_size_t
get_psize (blkptr_t * bp, grub_zfs_endian_t endian)
{
return ((((grub_zfs_to_cpu64 ((bp)->blk_prop, endian) >> 16) & 0xffff) + 1)
<< SPA_MINBLOCKSHIFT);
}
static grub_uint64_t
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dva_get_offset (const dva_t *dva, grub_zfs_endian_t endian)
{
grub_dprintf ("zfs", "dva=%llx, %llx\n",
(unsigned long long) dva->dva_word[0],
(unsigned long long) dva->dva_word[1]);
return grub_zfs_to_cpu64 ((dva)->dva_word[1],
endian) << SPA_MINBLOCKSHIFT;
}
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static grub_err_t
zfs_fetch_nvlist (struct grub_zfs_device_desc *diskdesc, char **nvlist)
{
grub_err_t err;
*nvlist = 0;
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if (!diskdesc->dev)
return grub_error (GRUB_ERR_BUG, "member drive unknown");
*nvlist = grub_malloc (VDEV_PHYS_SIZE);
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/* Read in the vdev name-value pair list (112K). */
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err = grub_disk_read (diskdesc->dev->disk, diskdesc->vdev_phys_sector, 0,
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VDEV_PHYS_SIZE, *nvlist);
if (err)
{
grub_free (*nvlist);
*nvlist = 0;
return err;
}
return GRUB_ERR_NONE;
}
static grub_err_t
fill_vdev_info_real (struct grub_zfs_data *data,
const char *nvlist,
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struct grub_zfs_device_desc *fill,
struct grub_zfs_device_desc *insert,
int *inserted,
unsigned ashift)
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{
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char *type;
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type = grub_zfs_nvlist_lookup_string (nvlist, ZPOOL_CONFIG_TYPE);
if (!type)
return grub_errno;
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if (!grub_zfs_nvlist_lookup_uint64 (nvlist, "id", &(fill->id)))
{
grub_free (type);
return grub_error (GRUB_ERR_BAD_FS, "couldn't find vdev id");
}
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if (!grub_zfs_nvlist_lookup_uint64 (nvlist, "guid", &(fill->guid)))
{
grub_free (type);
return grub_error (GRUB_ERR_BAD_FS, "couldn't find vdev id");
}
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{
grub_uint64_t par;
if (grub_zfs_nvlist_lookup_uint64 (nvlist, "ashift", &par))
fill->ashift = par;
else if (ashift != 0xffffffff)
fill->ashift = ashift;
else
{
grub_free (type);
return grub_error (GRUB_ERR_BAD_FS, "couldn't find ashift");
}
}
fill->max_children_ashift = 0;
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if (grub_strcmp (type, VDEV_TYPE_DISK) == 0
|| grub_strcmp (type, VDEV_TYPE_FILE) == 0)
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{
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fill->type = DEVICE_LEAF;
if (!fill->dev && fill->guid == insert->guid)
{
fill->dev = insert->dev;
fill->vdev_phys_sector = insert->vdev_phys_sector;
fill->current_uberblock = insert->current_uberblock;
fill->original = insert->original;
2011-10-27 00:36:10 +00:00
if (!data->device_original)
data->device_original = fill;
insert->ashift = fill->ashift;
*inserted = 1;
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}
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grub_free (type);
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return GRUB_ERR_NONE;
}
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if (grub_strcmp (type, VDEV_TYPE_MIRROR) == 0
|| grub_strcmp (type, VDEV_TYPE_RAIDZ) == 0)
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{
int nelm, i;
if (grub_strcmp (type, VDEV_TYPE_MIRROR) == 0)
fill->type = DEVICE_MIRROR;
else
{
grub_uint64_t par;
fill->type = DEVICE_RAIDZ;
if (!grub_zfs_nvlist_lookup_uint64 (nvlist, "nparity", &par))
{
grub_free (type);
return grub_error (GRUB_ERR_BAD_FS, "couldn't find raidz parity");
}
fill->nparity = par;
}
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nelm = grub_zfs_nvlist_lookup_nvlist_array_get_nelm (nvlist,
ZPOOL_CONFIG_CHILDREN);
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if (nelm <= 0)
{
grub_free (type);
return grub_error (GRUB_ERR_BAD_FS, "incorrect mirror VDEV");
}
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if (!fill->children)
{
fill->n_children = nelm;
fill->children = grub_zalloc (fill->n_children
* sizeof (fill->children[0]));
}
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for (i = 0; i < nelm; i++)
{
char *child;
grub_err_t err;
child = grub_zfs_nvlist_lookup_nvlist_array
(nvlist, ZPOOL_CONFIG_CHILDREN, i);
err = fill_vdev_info_real (data, child, &fill->children[i], insert,
inserted, fill->ashift);
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grub_free (child);
if (err)
{
grub_free (type);
return err;
}
if (fill->children[i].ashift > fill->max_children_ashift)
fill->max_children_ashift = fill->children[i].ashift;
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}
grub_free (type);
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return GRUB_ERR_NONE;
}
grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET, "vdev %s isn't supported", type);
grub_free (type);
return grub_errno;
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}
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static grub_err_t
fill_vdev_info (struct grub_zfs_data *data,
char *nvlist, struct grub_zfs_device_desc *diskdesc,
int *inserted)
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{
grub_uint64_t id;
unsigned i;
*inserted = 0;
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if (!grub_zfs_nvlist_lookup_uint64 (nvlist, "id", &id))
return grub_error (GRUB_ERR_BAD_FS, "couldn't find vdev id");
for (i = 0; i < data->n_devices_attached; i++)
if (data->devices_attached[i].id == id)
return fill_vdev_info_real (data, nvlist, &data->devices_attached[i],
diskdesc, inserted, 0xffffffff);
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data->n_devices_attached++;
if (data->n_devices_attached > data->n_devices_allocated)
{
void *tmp;
grub_size_t sz;
if (grub_mul (data->n_devices_attached, 2, &data->n_devices_allocated) ||
grub_add (data->n_devices_allocated, 1, &data->n_devices_allocated) ||
grub_mul (data->n_devices_allocated, sizeof (data->devices_attached[0]), &sz))
return GRUB_ERR_OUT_OF_RANGE;
data->devices_attached = grub_realloc (tmp = data->devices_attached, sz);
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if (!data->devices_attached)
{
data->devices_attached = tmp;
return grub_errno;
}
}
grub_memset (&data->devices_attached[data->n_devices_attached - 1],
0, sizeof (data->devices_attached[data->n_devices_attached - 1]));
return fill_vdev_info_real (data, nvlist,
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&data->devices_attached[data->n_devices_attached - 1],
diskdesc, inserted, 0xffffffff);
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}
/*
* For a given XDR packed nvlist, verify the first 4 bytes and move on.
*
* An XDR packed nvlist is encoded as (comments from nvs_xdr_create) :
*
* encoding method/host endian (4 bytes)
* nvl_version (4 bytes)
* nvl_nvflag (4 bytes)
* encoded nvpairs:
* encoded size of the nvpair (4 bytes)
* decoded size of the nvpair (4 bytes)
* name string size (4 bytes)
* name string data (sizeof(NV_ALIGN4(string))
* data type (4 bytes)
* # of elements in the nvpair (4 bytes)
* data
* 2 zero's for the last nvpair
* (end of the entire list) (8 bytes)
*
*/
/*
* The nvlist_next_nvpair() function returns a handle to the next nvpair in the
* list following nvpair. If nvpair is NULL, the first pair is returned. If
* nvpair is the last pair in the nvlist, NULL is returned.
*/
static const char *
nvlist_next_nvpair (const char *nvl, const char *nvpair)
{
const char *nvp;
int encode_size;
int name_len;
if (nvl == NULL)
return NULL;
if (nvpair == NULL)
{
/* skip over header, nvl_version and nvl_nvflag */
nvpair = nvl + 4 * 3;
}
else
{
/* skip to the next nvpair */
encode_size = grub_be_to_cpu32 (grub_get_unaligned32(nvpair));
nvpair += encode_size;
/*If encode_size equals 0 nvlist_next_nvpair would return
* the same pair received in input, leading to an infinite loop.
* If encode_size is less than 0, this will move the pointer
* backwards, *possibly* examinining two times the same nvpair
* and potentially getting into an infinite loop. */
if(encode_size <= 0)
{
grub_dprintf ("zfs", "nvpair with size <= 0\n");
grub_error (GRUB_ERR_BAD_FS, "incorrect nvlist");
return NULL;
}
}
/* 8 bytes of 0 marks the end of the list */
if (grub_get_unaligned64 (nvpair) == 0)
return NULL;
/*consistency checks*/
if (nvpair + 4 * 3 >= nvl + VDEV_PHYS_SIZE)
{
grub_dprintf ("zfs", "nvlist overflow\n");
grub_error (GRUB_ERR_BAD_FS, "incorrect nvlist");
return NULL;
}
encode_size = grub_be_to_cpu32 (grub_get_unaligned32(nvpair));
nvp = nvpair + 4*2;
name_len = grub_be_to_cpu32 (grub_get_unaligned32 (nvp));
nvp += 4;
nvp = nvp + ((name_len + 3) & ~3); // align
if (nvp + 4 >= nvl + VDEV_PHYS_SIZE
|| encode_size < 0
|| nvp + 4 + encode_size > nvl + VDEV_PHYS_SIZE)
{
grub_dprintf ("zfs", "nvlist overflow\n");
grub_error (GRUB_ERR_BAD_FS, "incorrect nvlist");
return NULL;
}
/* end consistency checks */
return nvpair;
}
/*
* This function returns 0 on success and 1 on failure. On success, a string
* containing the name of nvpair is saved in buf.
*/
static int
nvpair_name (const char *nvp, char **buf, grub_size_t *buflen)
{
/* skip over encode/decode size */
nvp += 4 * 2;
*buf = (char *) (nvp + 4);
*buflen = grub_be_to_cpu32 (grub_get_unaligned32 (nvp));
return 0;
}
/*
* This function retrieves the value of the nvpair in the form of enumerated
* type data_type_t.
*/
static int
nvpair_type (const char *nvp)
{
int name_len, type;
/* skip over encode/decode size */
nvp += 4 * 2;
/* skip over name_len */
name_len = grub_be_to_cpu32 (grub_get_unaligned32 (nvp));
nvp += 4;
/* skip over name */
nvp = nvp + ((name_len + 3) & ~3); /* align */
type = grub_be_to_cpu32 (grub_get_unaligned32 (nvp));
return type;
}
static int
nvpair_value (const char *nvp,char **val,
grub_size_t *size_out, grub_size_t *nelm_out)
{
int name_len,nelm,encode_size;
/* skip over encode/decode size */
encode_size = grub_be_to_cpu32 (grub_get_unaligned32(nvp));
nvp += 8;
/* skip over name_len */
name_len = grub_be_to_cpu32 (grub_get_unaligned32 (nvp));
nvp += 4;
/* skip over name */
nvp = nvp + ((name_len + 3) & ~3); /* align */
/* skip over type */
nvp += 4;
nelm = grub_be_to_cpu32 (grub_get_unaligned32 (nvp));
nvp +=4;
if (nelm < 1)
{
grub_error (GRUB_ERR_BAD_FS, "empty nvpair");
return 0;
}
*val = (char *) nvp;
*size_out = encode_size;
if (nelm_out)
*nelm_out = nelm;
return 1;
}
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/*
* Check the disk label information and retrieve needed vdev name-value pairs.
*
*/
static grub_err_t
check_pool_label (struct grub_zfs_data *data,
struct grub_zfs_device_desc *diskdesc,
int *inserted, int original)
2010-12-05 20:17:24 +00:00
{
grub_uint64_t pool_state, txg = 0;
char *nvlist,*features;
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#if 0
char *nv;
#endif
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grub_uint64_t poolguid;
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grub_uint64_t version;
int found;
grub_err_t err;
grub_zfs_endian_t endian;
vdev_phys_t *phys;
zio_cksum_t emptycksum;
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*inserted = 0;
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err = zfs_fetch_nvlist (diskdesc, &nvlist);
if (err)
return err;
phys = (vdev_phys_t*) nvlist;
if (grub_zfs_to_cpu64 (phys->vp_zbt.zec_magic,
GRUB_ZFS_LITTLE_ENDIAN)
== ZEC_MAGIC)
endian = GRUB_ZFS_LITTLE_ENDIAN;
else if (grub_zfs_to_cpu64 (phys->vp_zbt.zec_magic,
GRUB_ZFS_BIG_ENDIAN)
== ZEC_MAGIC)
endian = GRUB_ZFS_BIG_ENDIAN;
else
{
grub_free (nvlist);
return grub_error (GRUB_ERR_BAD_FS,
"bad vdev_phys_t.vp_zbt.zec_magic number");
}
/* Now check the integrity of the vdev_phys_t structure though checksum. */
ZIO_SET_CHECKSUM(&emptycksum, diskdesc->vdev_phys_sector << 9, 0, 0, 0);
err = zio_checksum_verify (emptycksum, ZIO_CHECKSUM_LABEL, endian,
nvlist, VDEV_PHYS_SIZE);
if (err)
return err;
2010-12-05 20:17:24 +00:00
grub_dprintf ("zfs", "check 2 passed\n");
found = grub_zfs_nvlist_lookup_uint64 (nvlist, ZPOOL_CONFIG_POOL_STATE,
&pool_state);
if (! found)
{
grub_free (nvlist);
if (! grub_errno)
grub_error (GRUB_ERR_BAD_FS, ZPOOL_CONFIG_POOL_STATE " not found");
return grub_errno;
}
grub_dprintf ("zfs", "check 3 passed\n");
if (pool_state == POOL_STATE_DESTROYED)
{
grub_free (nvlist);
return grub_error (GRUB_ERR_BAD_FS, "zpool is marked as destroyed");
}
grub_dprintf ("zfs", "check 4 passed\n");
found = grub_zfs_nvlist_lookup_uint64 (nvlist, ZPOOL_CONFIG_POOL_TXG, &txg);
if (!found)
{
grub_free (nvlist);
if (! grub_errno)
grub_error (GRUB_ERR_BAD_FS, ZPOOL_CONFIG_POOL_TXG " not found");
return grub_errno;
}
grub_dprintf ("zfs", "check 6 passed\n");
/* not an active device */
if (txg == 0)
{
grub_free (nvlist);
return grub_error (GRUB_ERR_BAD_FS, "zpool isn't active");
}
grub_dprintf ("zfs", "check 7 passed\n");
found = grub_zfs_nvlist_lookup_uint64 (nvlist, ZPOOL_CONFIG_VERSION,
&version);
if (! found)
{
grub_free (nvlist);
if (! grub_errno)
grub_error (GRUB_ERR_BAD_FS, ZPOOL_CONFIG_VERSION " not found");
return grub_errno;
}
grub_dprintf ("zfs", "check 8 passed\n");
if (!SPA_VERSION_IS_SUPPORTED(version))
2010-12-05 20:17:24 +00:00
{
grub_free (nvlist);
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"too new version %llu > %llu",
(unsigned long long) version,
(unsigned long long) SPA_VERSION_BEFORE_FEATURES);
2010-12-05 20:17:24 +00:00
}
grub_dprintf ("zfs", "check 9 passed\n");
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found = grub_zfs_nvlist_lookup_uint64 (nvlist, ZPOOL_CONFIG_GUID,
&(diskdesc->guid));
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if (! found)
{
grub_free (nvlist);
if (! grub_errno)
grub_error (GRUB_ERR_BAD_FS, ZPOOL_CONFIG_GUID " not found");
return grub_errno;
}
found = grub_zfs_nvlist_lookup_uint64 (nvlist, ZPOOL_CONFIG_POOL_GUID,
&poolguid);
if (! found)
{
grub_free (nvlist);
if (! grub_errno)
grub_error (GRUB_ERR_BAD_FS, ZPOOL_CONFIG_POOL_GUID " not found");
return grub_errno;
}
grub_dprintf ("zfs", "check 11 passed\n");
if (original)
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data->guid = poolguid;
if (data->guid != poolguid)
return grub_error (GRUB_ERR_BAD_FS, "another zpool");
2010-12-06 01:31:22 +00:00
{
char *nv;
nv = grub_zfs_nvlist_lookup_nvlist (nvlist, ZPOOL_CONFIG_VDEV_TREE);
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if (!nv)
{
grub_free (nvlist);
return grub_error (GRUB_ERR_BAD_FS, "couldn't find vdev tree");
}
err = fill_vdev_info (data, nv, diskdesc, inserted);
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if (err)
{
grub_free (nv);
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grub_free (nvlist);
return err;
}
grub_free (nv);
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}
grub_dprintf ("zfs", "check 10 passed\n");
features = grub_zfs_nvlist_lookup_nvlist(nvlist,
ZPOOL_CONFIG_FEATURES_FOR_READ);
if (features)
{
const char *nvp=NULL;
char name[MAX_SUPPORTED_FEATURE_STRLEN + 1];
char *nameptr;
grub_size_t namelen;
while ((nvp = nvlist_next_nvpair(features, nvp)) != NULL)
{
nvpair_name (nvp, &nameptr, &namelen);
if(namelen > MAX_SUPPORTED_FEATURE_STRLEN)
namelen = MAX_SUPPORTED_FEATURE_STRLEN;
grub_memcpy (name, nameptr, namelen);
name[namelen] = '\0';
grub_dprintf("zfs","str=%s\n",name);
if (check_feature(name,1, NULL) != 0)
{
grub_dprintf("zfs","feature missing in check_pool_label:%s\n",name);
err= grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET," check_pool_label missing feature '%s' for read",name);
return err;
}
}
}
grub_dprintf ("zfs", "check 12 passed (feature flags)\n");
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grub_free (nvlist);
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return GRUB_ERR_NONE;
}
static grub_err_t
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scan_disk (grub_device_t dev, struct grub_zfs_data *data,
int original, int *inserted)
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{
int label = 0;
uberblock_phys_t *ub_array, *ubbest = NULL;
vdev_boot_header_t *bh;
grub_err_t err;
int vdevnum;
struct grub_zfs_device_desc desc;
ub_array = grub_malloc (VDEV_UBERBLOCK_RING);
if (!ub_array)
return grub_errno;
bh = grub_malloc (VDEV_BOOT_HEADER_SIZE);
if (!bh)
{
grub_free (ub_array);
return grub_errno;
}
vdevnum = VDEV_LABELS;
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desc.dev = dev;
desc.original = original;
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/* Don't check back labels on CDROM. */
2010-12-06 01:31:22 +00:00
if (grub_disk_get_size (dev->disk) == GRUB_DISK_SIZE_UNKNOWN)
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vdevnum = VDEV_LABELS / 2;
for (label = 0; ubbest == NULL && label < vdevnum; label++)
{
desc.vdev_phys_sector
= label * (sizeof (vdev_label_t) >> SPA_MINBLOCKSHIFT)
+ ((VDEV_SKIP_SIZE + VDEV_BOOT_HEADER_SIZE) >> SPA_MINBLOCKSHIFT)
+ (label < VDEV_LABELS / 2 ? 0 :
ALIGN_DOWN (grub_disk_get_size (dev->disk), sizeof (vdev_label_t))
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- VDEV_LABELS * (sizeof (vdev_label_t) >> SPA_MINBLOCKSHIFT));
/* Read in the uberblock ring (128K). */
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err = grub_disk_read (dev->disk, desc.vdev_phys_sector
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+ (VDEV_PHYS_SIZE >> SPA_MINBLOCKSHIFT),
0, VDEV_UBERBLOCK_RING, (char *) ub_array);
if (err)
{
grub_errno = GRUB_ERR_NONE;
continue;
}
grub_dprintf ("zfs", "label ok %d\n", label);
err = check_pool_label (data, &desc, inserted, original);
if (err || !*inserted)
{
grub_errno = GRUB_ERR_NONE;
continue;
}
ubbest = find_bestub (ub_array, &desc);
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if (!ubbest)
{
grub_dprintf ("zfs", "No uberblock found\n");
grub_errno = GRUB_ERR_NONE;
continue;
}
grub_memmove (&(desc.current_uberblock),
&ubbest->ubp_uberblock, sizeof (uberblock_t));
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if (original)
grub_memmove (&(data->current_uberblock),
&ubbest->ubp_uberblock, sizeof (uberblock_t));
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#if 0
if (find_best_root &&
vdev_uberblock_compare (&ubbest->ubp_uberblock,
&(current_uberblock)) <= 0)
continue;
#endif
grub_free (ub_array);
grub_free (bh);
return GRUB_ERR_NONE;
}
grub_free (ub_array);
grub_free (bh);
return grub_error (GRUB_ERR_BAD_FS, "couldn't find a valid label");
}
/* Helper for scan_devices. */
static int
scan_devices_iter (const char *name, void *hook_data)
2010-12-05 20:17:24 +00:00
{
struct grub_zfs_data *data = hook_data;
grub_device_t dev;
grub_err_t err;
int inserted;
dev = grub_device_open (name);
if (!dev)
return 0;
if (!dev->disk)
{
grub_device_close (dev);
return 0;
}
err = scan_disk (dev, data, 0, &inserted);
if (err == GRUB_ERR_BAD_FS)
{
grub_device_close (dev);
grub_errno = GRUB_ERR_NONE;
return 0;
}
if (err)
{
grub_device_close (dev);
grub_print_error ();
return 0;
}
if (!inserted)
grub_device_close (dev);
return 0;
}
static grub_err_t
scan_devices (struct grub_zfs_data *data)
{
grub_device_iterate (scan_devices_iter, data);
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return GRUB_ERR_NONE;
}
/* x**y. */
static grub_uint8_t powx[255 * 2];
/* Such an s that x**s = y */
static int powx_inv[256];
static const grub_uint8_t poly = 0x1d;
/* perform the operation a ^= b * (x ** (known_idx * recovery_pow) ) */
static inline void
xor_out (grub_uint8_t *a, const grub_uint8_t *b, grub_size_t s,
unsigned known_idx, unsigned recovery_pow)
{
unsigned add;
/* Simple xor. */
if (known_idx == 0 || recovery_pow == 0)
{
grub_crypto_xor (a, a, b, s);
return;
}
add = (known_idx * recovery_pow) % 255;
for (;s--; b++, a++)
if (*b)
*a ^= powx[powx_inv[*b] + add];
}
static inline grub_uint8_t
gf_mul (grub_uint8_t a, grub_uint8_t b)
{
if (a == 0 || b == 0)
return 0;
return powx[powx_inv[a] + powx_inv[b]];
}
#define MAX_NBUFS 4
static grub_err_t
recovery (grub_uint8_t *bufs[4], grub_size_t s, const int nbufs,
const unsigned *powers,
const unsigned *idx)
{
grub_dprintf ("zfs", "recovering %u buffers\n", nbufs);
/* Now we have */
/* b_i = sum (r_j* (x ** (powers[i] * idx[j])))*/
/* Let's invert the matrix in question. */
switch (nbufs)
{
/* Easy: r_0 = bufs[0] / (x << (powers[i] * idx[j])). */
case 1:
{
int add;
grub_uint8_t *a;
if (powers[0] == 0 || idx[0] == 0)
return GRUB_ERR_NONE;
add = 255 - ((powers[0] * idx[0]) % 255);
for (a = bufs[0]; s--; a++)
if (*a)
*a = powx[powx_inv[*a] + add];
return GRUB_ERR_NONE;
}
/* Case 2x2: Let's use the determinant formula. */
case 2:
{
grub_uint8_t det, det_inv;
grub_uint8_t matrixinv[2][2];
unsigned i;
/* The determinant is: */
det = (powx[(powers[0] * idx[0] + powers[1] * idx[1]) % 255]
^ powx[(powers[0] * idx[1] + powers[1] * idx[0]) % 255]);
if (det == 0)
return grub_error (GRUB_ERR_BAD_FS, "singular recovery matrix");
det_inv = powx[255 - powx_inv[det]];
matrixinv[0][0] = gf_mul (powx[(powers[1] * idx[1]) % 255], det_inv);
matrixinv[1][1] = gf_mul (powx[(powers[0] * idx[0]) % 255], det_inv);
matrixinv[0][1] = gf_mul (powx[(powers[0] * idx[1]) % 255], det_inv);
matrixinv[1][0] = gf_mul (powx[(powers[1] * idx[0]) % 255], det_inv);
for (i = 0; i < s; i++)
{
grub_uint8_t b0, b1;
b0 = bufs[0][i];
b1 = bufs[1][i];
bufs[0][i] = (gf_mul (b0, matrixinv[0][0])
^ gf_mul (b1, matrixinv[0][1]));
bufs[1][i] = (gf_mul (b0, matrixinv[1][0])
^ gf_mul (b1, matrixinv[1][1]));
}
return GRUB_ERR_NONE;
}
/* Otherwise use Gauss. */
case 3:
{
grub_uint8_t matrix1[MAX_NBUFS][MAX_NBUFS], matrix2[MAX_NBUFS][MAX_NBUFS];
int i, j, k;
for (i = 0; i < nbufs; i++)
for (j = 0; j < nbufs; j++)
matrix1[i][j] = powx[(powers[i] * idx[j]) % 255];
for (i = 0; i < nbufs; i++)
for (j = 0; j < nbufs; j++)
matrix2[i][j] = 0;
for (i = 0; i < nbufs; i++)
matrix2[i][i] = 1;
for (i = 0; i < nbufs; i++)
{
grub_uint8_t mul;
for (j = i; j < nbufs; j++)
if (matrix1[i][j])
break;
if (j == nbufs)
return grub_error (GRUB_ERR_BAD_FS, "singular recovery matrix");
if (j != i)
{
int xchng;
xchng = j;
for (j = 0; j < nbufs; j++)
{
grub_uint8_t t;
t = matrix1[xchng][j];
matrix1[xchng][j] = matrix1[i][j];
matrix1[i][j] = t;
}
for (j = 0; j < nbufs; j++)
{
grub_uint8_t t;
t = matrix2[xchng][j];
matrix2[xchng][j] = matrix2[i][j];
matrix2[i][j] = t;
}
}
mul = powx[255 - powx_inv[matrix1[i][i]]];
for (j = 0; j < nbufs; j++)
matrix1[i][j] = gf_mul (matrix1[i][j], mul);
for (j = 0; j < nbufs; j++)
matrix2[i][j] = gf_mul (matrix2[i][j], mul);
for (j = i + 1; j < nbufs; j++)
{
mul = matrix1[j][i];
for (k = 0; k < nbufs; k++)
matrix1[j][k] ^= gf_mul (matrix1[i][k], mul);
for (k = 0; k < nbufs; k++)
matrix2[j][k] ^= gf_mul (matrix2[i][k], mul);
}
}
for (i = nbufs - 1; i >= 0; i--)
{
for (j = 0; j < i; j++)
{
grub_uint8_t mul;
mul = matrix1[j][i];
for (k = 0; k < nbufs; k++)
matrix1[j][k] ^= gf_mul (matrix1[i][k], mul);
for (k = 0; k < nbufs; k++)
matrix2[j][k] ^= gf_mul (matrix2[i][k], mul);
}
}
for (i = 0; i < (int) s; i++)
{
grub_uint8_t b[MAX_NBUFS];
for (j = 0; j < nbufs; j++)
b[j] = bufs[j][i];
for (j = 0; j < nbufs; j++)
{
bufs[j][i] = 0;
for (k = 0; k < nbufs; k++)
bufs[j][i] ^= gf_mul (matrix2[j][k], b[k]);
}
}
return GRUB_ERR_NONE;
}
default:
return grub_error (GRUB_ERR_BUG, "too big matrix");
}
}
2010-12-06 01:31:22 +00:00
static grub_err_t
read_device (grub_uint64_t offset, struct grub_zfs_device_desc *desc,
grub_size_t len, void *buf)
2010-12-06 01:31:22 +00:00
{
switch (desc->type)
{
case DEVICE_LEAF:
{
grub_uint64_t sector;
sector = DVA_OFFSET_TO_PHYS_SECTOR (offset);
if (!desc->dev)
{
2012-02-12 14:25:25 +00:00
return grub_error (GRUB_ERR_BAD_FS,
N_("couldn't find a necessary member device "
2012-02-12 14:25:25 +00:00
"of multi-device filesystem"));
}
/* read in a data block */
return grub_disk_read (desc->dev->disk, sector, 0, len, buf);
}
2010-12-06 01:31:22 +00:00
case DEVICE_MIRROR:
{
grub_err_t err = GRUB_ERR_NONE;
2010-12-06 01:31:22 +00:00
unsigned i;
2010-12-06 06:03:58 +00:00
if (desc->n_children <= 0)
return grub_error (GRUB_ERR_BAD_FS,
"non-positive number of mirror children");
2010-12-06 01:31:22 +00:00
for (i = 0; i < desc->n_children; i++)
{
err = read_device (offset, &desc->children[i],
2010-12-06 01:31:22 +00:00
len, buf);
if (!err)
break;
grub_errno = GRUB_ERR_NONE;
}
grub_errno = err;
return err;
2010-12-06 01:31:22 +00:00
}
case DEVICE_RAIDZ:
{
unsigned c = 0;
grub_uint64_t high;
grub_uint64_t devn;
grub_uint64_t m;
grub_uint32_t s, orig_s;
void *orig_buf = buf;
grub_size_t orig_len = len;
grub_uint8_t *recovery_buf[4];
grub_size_t recovery_len[4];
unsigned recovery_idx[4];
unsigned failed_devices = 0;
int idx, orig_idx;
if (desc->nparity < 1 || desc->nparity > 3)
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"raidz%d is not supported", desc->nparity);
if (desc->n_children <= desc->nparity || desc->n_children < 1)
return grub_error(GRUB_ERR_BAD_FS, "too little devices for given parity");
orig_s = (((len + (1 << desc->ashift) - 1) >> desc->ashift)
+ (desc->n_children - desc->nparity) - 1);
s = orig_s;
high = grub_divmod64 ((offset >> desc->ashift),
desc->n_children, &m);
if (desc->nparity == 2)
c = 2;
if (desc->nparity == 3)
c = 3;
if (((len + (1 << desc->ashift) - 1) >> desc->ashift)
>= (desc->n_children - desc->nparity))
idx = (desc->n_children - desc->nparity - 1);
else
idx = ((len + (1 << desc->ashift) - 1) >> desc->ashift) - 1;
orig_idx = idx;
while (len > 0)
{
grub_size_t csize;
grub_uint32_t bsize;
grub_err_t err;
bsize = s / (desc->n_children - desc->nparity);
if (desc->nparity == 1
&& ((offset >> (desc->ashift + 20 - desc->max_children_ashift))
& 1) == c)
c++;
high = grub_divmod64 ((offset >> desc->ashift) + c,
desc->n_children, &devn);
csize = bsize << desc->ashift;
if (csize > len)
csize = len;
grub_dprintf ("zfs", "RAIDZ mapping 0x%" PRIxGRUB_UINT64_T
"+%u (%" PRIxGRUB_SIZE ", %" PRIxGRUB_UINT32_T
") -> (0x%" PRIxGRUB_UINT64_T ", 0x%"
2011-10-26 17:26:24 +00:00
PRIxGRUB_UINT64_T ")\n",
offset >> desc->ashift, c, len, bsize, high,
devn);
err = read_device ((high << desc->ashift)
| (offset & ((1 << desc->ashift) - 1)),
&desc->children[devn],
csize, buf);
if (err && failed_devices < desc->nparity)
{
recovery_buf[failed_devices] = buf;
recovery_len[failed_devices] = csize;
recovery_idx[failed_devices] = idx;
failed_devices++;
grub_errno = err = 0;
}
if (err)
return err;
c++;
idx--;
s--;
buf = (char *) buf + csize;
len -= csize;
}
if (failed_devices)
{
unsigned redundancy_pow[4];
unsigned cur_redundancy_pow = 0;
unsigned n_redundancy = 0;
unsigned i, j;
grub_err_t err;
/* Compute mul. x**s has a period of 255. */
if (powx[0] == 0)
{
grub_uint8_t cur = 1;
for (i = 0; i < 255; i++)
{
powx[i] = cur;
powx[i + 255] = cur;
powx_inv[cur] = i;
if (cur & 0x80)
cur = (cur << 1) ^ poly;
else
cur <<= 1;
}
}
/* Read redundancy data. */
for (n_redundancy = 0, cur_redundancy_pow = 0;
n_redundancy < failed_devices;
cur_redundancy_pow++)
{
high = grub_divmod64 ((offset >> desc->ashift)
+ cur_redundancy_pow
+ ((desc->nparity == 1)
&& ((offset >> (desc->ashift + 20
- desc->max_children_ashift))
& 1)),
desc->n_children, &devn);
err = read_device ((high << desc->ashift)
| (offset & ((1 << desc->ashift) - 1)),
&desc->children[devn],
recovery_len[n_redundancy],
recovery_buf[n_redundancy]);
/* Ignore error if we may still have enough devices. */
if (err && n_redundancy + desc->nparity - cur_redundancy_pow - 1
>= failed_devices)
{
grub_errno = GRUB_ERR_NONE;
continue;
}
if (err)
return err;
redundancy_pow[n_redundancy] = cur_redundancy_pow;
n_redundancy++;
}
/* Now xor-our the parts we already know. */
buf = orig_buf;
len = orig_len;
s = orig_s;
idx = orig_idx;
while (len > 0)
{
grub_size_t csize;
csize = ((s / (desc->n_children - desc->nparity))
<< desc->ashift);
if (csize > len)
csize = len;
for (j = 0; j < failed_devices; j++)
if (buf == recovery_buf[j])
break;
if (j == failed_devices)
for (j = 0; j < failed_devices; j++)
xor_out (recovery_buf[j], buf,
csize < recovery_len[j] ? csize : recovery_len[j],
idx, redundancy_pow[j]);
s--;
buf = (char *) buf + csize;
len -= csize;
idx--;
}
for (i = 0; i < failed_devices
&& recovery_len[i] == recovery_len[0];
i++);
/* Since the chunks have variable length handle the last block
separately. */
if (i != failed_devices)
{
grub_uint8_t *tmp_recovery_buf[4];
for (j = 0; j < i; j++)
tmp_recovery_buf[j] = recovery_buf[j] + recovery_len[failed_devices - 1];
err = recovery (tmp_recovery_buf, recovery_len[0] - recovery_len[failed_devices - 1], i, redundancy_pow,
recovery_idx);
if (err)
return err;
}
err = recovery (recovery_buf, recovery_len[failed_devices - 1],
failed_devices, redundancy_pow, recovery_idx);
if (err)
return err;
}
return GRUB_ERR_NONE;
}
2010-12-06 01:31:22 +00:00
}
return grub_error (GRUB_ERR_BAD_FS, "unsupported device type");
2010-12-06 01:31:22 +00:00
}
2010-12-05 20:17:24 +00:00
static grub_err_t
read_dva (const dva_t *dva,
grub_zfs_endian_t endian, struct grub_zfs_data *data,
void *buf, grub_size_t len)
{
grub_uint64_t offset;
2010-12-05 20:17:24 +00:00
unsigned i;
grub_err_t err = 0;
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int try = 0;
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offset = dva_get_offset (dva, endian);
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for (try = 0; try < 2; try++)
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{
for (i = 0; i < data->n_devices_attached; i++)
if (data->devices_attached[i].id == DVA_GET_VDEV (dva))
{
err = read_device (offset, &data->devices_attached[i], len, buf);
if (!err)
return GRUB_ERR_NONE;
break;
}
if (try == 1)
break;
err = scan_devices (data);
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if (err)
return err;
}
if (!err)
return grub_error (GRUB_ERR_BAD_FS, "unknown device %d",
(int) DVA_GET_VDEV (dva));
return err;
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}
/*
* Read a block of data based on the gang block address dva,
* and put its data in buf.
*
*/
static grub_err_t
zio_read_gang (blkptr_t * bp, grub_zfs_endian_t endian, dva_t * dva, void *buf,
struct grub_zfs_data *data)
{
zio_gbh_phys_t *zio_gb;
unsigned i;
grub_err_t err;
zio_cksum_t zc;
grub_memset (&zc, 0, sizeof (zc));
zio_gb = grub_malloc (SPA_GANGBLOCKSIZE);
if (!zio_gb)
return grub_errno;
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grub_dprintf ("zfs", endian == GRUB_ZFS_LITTLE_ENDIAN ? "little-endian gang\n"
:"big-endian gang\n");
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err = read_dva (dva, endian, data, zio_gb, SPA_GANGBLOCKSIZE);
if (err)
{
grub_free (zio_gb);
return err;
}
/* XXX */
/* self checksuming the gang block header */
ZIO_SET_CHECKSUM (&zc, DVA_GET_VDEV (dva),
dva_get_offset (dva, endian), bp->blk_birth, 0);
err = zio_checksum_verify (zc, ZIO_CHECKSUM_GANG_HEADER, endian,
(char *) zio_gb, SPA_GANGBLOCKSIZE);
if (err)
{
grub_free (zio_gb);
return err;
}
endian = (grub_zfs_to_cpu64 (bp->blk_prop, endian) >> 63) & 1;
for (i = 0; i < SPA_GBH_NBLKPTRS; i++)
{
if (BP_IS_HOLE(&zio_gb->zg_blkptr[i]))
continue;
err = zio_read_data (&zio_gb->zg_blkptr[i], endian, buf, data);
if (err)
{
grub_free (zio_gb);
return err;
}
buf = (char *) buf + get_psize (&zio_gb->zg_blkptr[i], endian);
}
grub_free (zio_gb);
return GRUB_ERR_NONE;
}
/*
* Read in a block of raw data to buf.
*/
static grub_err_t
zio_read_data (blkptr_t * bp, grub_zfs_endian_t endian, void *buf,
struct grub_zfs_data *data)
{
int i, psize;
grub_err_t err = GRUB_ERR_NONE;
psize = get_psize (bp, endian);
/* pick a good dva from the block pointer */
for (i = 0; i < SPA_DVAS_PER_BP; i++)
{
if (bp->blk_dva[i].dva_word[0] == 0 && bp->blk_dva[i].dva_word[1] == 0)
continue;
if ((grub_zfs_to_cpu64 (bp->blk_dva[i].dva_word[1], endian)>>63) & 1)
err = zio_read_gang (bp, endian, &bp->blk_dva[i], buf, data);
else
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err = read_dva (&bp->blk_dva[i], endian, data, buf, psize);
if (!err)
return GRUB_ERR_NONE;
grub_errno = GRUB_ERR_NONE;
}
if (!err)
err = grub_error (GRUB_ERR_BAD_FS, "couldn't find a valid DVA");
grub_errno = err;
return err;
}
/*
* buf must be at least BPE_GET_PSIZE(bp) bytes long (which will never be
* more than BPE_PAYLOAD_SIZE bytes).
*/
static grub_err_t
decode_embedded_bp_compressed(const blkptr_t *bp, void *buf)
{
grub_size_t psize, i;
grub_uint8_t *buf8 = buf;
grub_uint64_t w = 0;
const grub_uint64_t *bp64 = (const grub_uint64_t *)bp;
psize = BPE_GET_PSIZE(bp);
/*
* Decode the words of the block pointer into the byte array.
* Low bits of first word are the first byte (little endian).
*/
for (i = 0; i < psize; i++)
{
if (i % sizeof (w) == 0)
{
/* beginning of a word */
w = *bp64;
bp64++;
if (!BPE_IS_PAYLOADWORD(bp, bp64))
bp64++;
}
buf8[i] = BF64_GET(w, (i % sizeof (w)) * 8, 8);
}
return GRUB_ERR_NONE;
}
/*
* Read in a block of data, verify its checksum, decompress if needed,
* and put the uncompressed data in buf.
*/
static grub_err_t
zio_read (blkptr_t *bp, grub_zfs_endian_t endian, void **buf,
grub_size_t *size, struct grub_zfs_data *data)
{
grub_size_t lsize, psize;
unsigned int comp, encrypted;
char *compbuf = NULL;
grub_err_t err;
zio_cksum_t zc = bp->blk_cksum;
grub_uint32_t checksum;
*buf = NULL;
checksum = (grub_zfs_to_cpu64((bp)->blk_prop, endian) >> 40) & 0xff;
comp = (grub_zfs_to_cpu64((bp)->blk_prop, endian)>>32) & 0x7f;
encrypted = ((grub_zfs_to_cpu64((bp)->blk_prop, endian) >> 60) & 3);
if (BP_IS_EMBEDDED(bp))
{
if (BPE_GET_ETYPE(bp) != BP_EMBEDDED_TYPE_DATA)
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"unsupported embedded BP (type=%u)\n",
BPE_GET_ETYPE(bp));
lsize = BPE_GET_LSIZE(bp);
psize = BF64_GET_SB(grub_zfs_to_cpu64 ((bp)->blk_prop, endian), 25, 7, 0, 1);
}
else
{
lsize = (BP_IS_HOLE(bp) ? 0 :
(((grub_zfs_to_cpu64 ((bp)->blk_prop, endian) & 0xffff) + 1)
<< SPA_MINBLOCKSHIFT));
psize = get_psize (bp, endian);
}
grub_dprintf("zfs", "zio_read: E %d: size %" PRIdGRUB_SSIZE "/%"
PRIdGRUB_SSIZE "\n", (int)BP_IS_EMBEDDED(bp), lsize, psize);
if (size)
*size = lsize;
if (comp >= ZIO_COMPRESS_FUNCTIONS)
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"compression algorithm %u not supported\n", (unsigned int) comp);
if (comp != ZIO_COMPRESS_OFF && decomp_table[comp].decomp_func == NULL)
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"compression algorithm %s not supported\n", decomp_table[comp].name);
if (comp != ZIO_COMPRESS_OFF)
/* It's not really necessary to align to 16, just for safety. */
compbuf = grub_malloc (ALIGN_UP (psize, 16));
else
compbuf = *buf = grub_malloc (lsize);
if (! compbuf)
return grub_errno;
grub_dprintf ("zfs", "endian = %d\n", endian);
if (BP_IS_EMBEDDED(bp))
err = decode_embedded_bp_compressed(bp, compbuf);
else
{
err = zio_read_data (bp, endian, compbuf, data);
/* FIXME is it really necessary? */
if (comp != ZIO_COMPRESS_OFF)
grub_memset (compbuf + psize, 0, ALIGN_UP (psize, 16) - psize);
}
if (err)
{
grub_free (compbuf);
*buf = NULL;
return err;
}
if (!BP_IS_EMBEDDED(bp))
{
err = zio_checksum_verify (zc, checksum, endian,
compbuf, psize);
if (err)
{
grub_dprintf ("zfs", "incorrect checksum\n");
grub_free (compbuf);
*buf = NULL;
return err;
}
}
if (encrypted)
{
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if (!grub_zfs_decrypt)
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err = grub_error (GRUB_ERR_BAD_FS,
N_("module `%s' isn't loaded"),
"zfscrypt");
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else
{
unsigned i, besti = 0;
grub_uint64_t bestval = 0;
for (i = 0; i < data->subvol.nkeys; i++)
if (data->subvol.keyring[i].txg <= grub_zfs_to_cpu64 (bp->blk_birth,
endian)
&& data->subvol.keyring[i].txg > bestval)
{
besti = i;
bestval = data->subvol.keyring[i].txg;
}
if (bestval == 0)
{
grub_free (compbuf);
*buf = NULL;
grub_dprintf ("zfs", "no key for txg %" PRIxGRUB_UINT64_T "\n",
grub_zfs_to_cpu64 (bp->blk_birth,
endian));
return grub_error (GRUB_ERR_BAD_FS, "no key found in keychain");
}
grub_dprintf ("zfs", "using key %u (%" PRIxGRUB_UINT64_T
", %p) for txg %" PRIxGRUB_UINT64_T "\n",
besti, data->subvol.keyring[besti].txg,
data->subvol.keyring[besti].cipher,
grub_zfs_to_cpu64 (bp->blk_birth,
endian));
err = grub_zfs_decrypt (data->subvol.keyring[besti].cipher,
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data->subvol.keyring[besti].algo,
&(bp)->blk_dva[encrypted],
compbuf, psize, zc.zc_mac,
endian);
}
if (err)
{
grub_free (compbuf);
*buf = NULL;
return err;
}
}
if (comp != ZIO_COMPRESS_OFF)
{
*buf = grub_malloc (lsize);
if (!*buf)
{
grub_free (compbuf);
return grub_errno;
}
err = decomp_table[comp].decomp_func (compbuf, *buf, psize, lsize);
grub_free (compbuf);
if (err)
{
grub_free (*buf);
*buf = NULL;
return err;
}
}
return GRUB_ERR_NONE;
}
/*
* Get the block from a block id.
* push the block onto the stack.
*
*/
static grub_err_t
dmu_read (dnode_end_t * dn, grub_uint64_t blkid, void **buf,
grub_zfs_endian_t *endian_out, struct grub_zfs_data *data)
{
int level;
grub_off_t idx;
blkptr_t *bp_array = dn->dn.dn_blkptr;
int epbs = dn->dn.dn_indblkshift - SPA_BLKPTRSHIFT;
blkptr_t *bp;
void *tmpbuf = 0;
grub_zfs_endian_t endian;
grub_err_t err = GRUB_ERR_NONE;
bp = grub_malloc (sizeof (blkptr_t));
if (!bp)
return grub_errno;
endian = dn->endian;
for (level = dn->dn.dn_nlevels - 1; level >= 0; level--)
{
grub_dprintf ("zfs", "endian = %d\n", endian);
idx = (blkid >> (epbs * level)) & ((1 << epbs) - 1);
*bp = bp_array[idx];
if (bp_array != dn->dn.dn_blkptr)
{
grub_free (bp_array);
bp_array = 0;
}
if (BP_IS_HOLE (bp))
{
grub_size_t size = grub_zfs_to_cpu16 (dn->dn.dn_datablkszsec,
dn->endian)
<< SPA_MINBLOCKSHIFT;
*buf = grub_malloc (size);
if (!*buf)
{
err = grub_errno;
break;
}
grub_memset (*buf, 0, size);
endian = (grub_zfs_to_cpu64 (bp->blk_prop, endian) >> 63) & 1;
break;
}
if (level == 0)
{
grub_dprintf ("zfs", "endian = %d\n", endian);
err = zio_read (bp, endian, buf, 0, data);
endian = (grub_zfs_to_cpu64 (bp->blk_prop, endian) >> 63) & 1;
break;
}
grub_dprintf ("zfs", "endian = %d\n", endian);
err = zio_read (bp, endian, &tmpbuf, 0, data);
endian = (grub_zfs_to_cpu64 (bp->blk_prop, endian) >> 63) & 1;
if (err)
break;
bp_array = tmpbuf;
}
if (bp_array != dn->dn.dn_blkptr)
grub_free (bp_array);
if (endian_out)
*endian_out = endian;
grub_free (bp);
return err;
}
/*
* mzap_lookup: Looks up property described by "name" and returns the value
* in "value".
*/
static grub_err_t
mzap_lookup (mzap_phys_t * zapobj, grub_zfs_endian_t endian,
grub_uint32_t objsize, const char *name, grub_uint64_t * value,
int case_insensitive)
{
grub_uint32_t i, chunks;
mzap_ent_phys_t *mzap_ent = zapobj->mz_chunk;
2015-02-21 15:22:01 +00:00
if (objsize < MZAP_ENT_LEN)
return grub_error (GRUB_ERR_FILE_NOT_FOUND, N_("file `%s' not found"), name);
chunks = objsize / MZAP_ENT_LEN - 1;
for (i = 0; i < chunks; i++)
{
if (case_insensitive ? (grub_strcasecmp (mzap_ent[i].mze_name, name) == 0)
: (grub_strcmp (mzap_ent[i].mze_name, name) == 0))
{
*value = grub_zfs_to_cpu64 (mzap_ent[i].mze_value, endian);
return GRUB_ERR_NONE;
}
}
return grub_error (GRUB_ERR_FILE_NOT_FOUND, N_("file `%s' not found"), name);
}
static int
mzap_iterate (mzap_phys_t * zapobj, grub_zfs_endian_t endian, int objsize,
int (*hook) (const char *name, grub_uint64_t val,
struct grub_zfs_dir_ctx *ctx),
struct grub_zfs_dir_ctx *ctx)
{
int i, chunks;
mzap_ent_phys_t *mzap_ent = zapobj->mz_chunk;
chunks = objsize / MZAP_ENT_LEN - 1;
for (i = 0; i < chunks; i++)
{
grub_dprintf ("zfs", "zap: name = %s, value = %llx, cd = %x\n",
mzap_ent[i].mze_name, (long long)mzap_ent[i].mze_value,
(int)mzap_ent[i].mze_cd);
if (hook (mzap_ent[i].mze_name,
grub_zfs_to_cpu64 (mzap_ent[i].mze_value, endian), ctx))
return 1;
}
return 0;
}
static grub_uint64_t
zap_hash (grub_uint64_t salt, const char *name,
int case_insensitive)
{
static grub_uint64_t table[256];
const grub_uint8_t *cp;
grub_uint8_t c;
grub_uint64_t crc = salt;
if (table[128] == 0)
{
grub_uint64_t *ct;
int i, j;
for (i = 0; i < 256; i++)
{
for (ct = table + i, *ct = i, j = 8; j > 0; j--)
*ct = (*ct >> 1) ^ (-(*ct & 1) & ZFS_CRC64_POLY);
}
}
if (case_insensitive)
for (cp = (const grub_uint8_t *) name; (c = *cp) != '\0'; cp++)
crc = (crc >> 8) ^ table[(crc ^ grub_toupper (c)) & 0xFF];
else
for (cp = (const grub_uint8_t *) name; (c = *cp) != '\0'; cp++)
crc = (crc >> 8) ^ table[(crc ^ c) & 0xFF];
/*
* Only use 28 bits, since we need 4 bits in the cookie for the
* collision differentiator. We MUST use the high bits, since
* those are the onces that we first pay attention to when
* chosing the bucket.
*/
crc &= ~((1ULL << (64 - ZAP_HASHBITS)) - 1);
return crc;
}
/*
* Only to be used on 8-bit arrays.
* array_len is actual len in bytes (not encoded le_value_length).
* buf is null-terminated.
*/
static inline int
name_cmp (const char *s1, const char *s2, grub_size_t n,
int case_insensitive)
{
const char *t1 = (const char *) s1;
const char *t2 = (const char *) s2;
if (!case_insensitive)
return grub_memcmp (t1, t2, n);
while (n--)
{
if (grub_toupper (*t1) != grub_toupper (*t2))
return (int) grub_toupper (*t1) - (int) grub_toupper (*t2);
t1++;
t2++;
}
return 0;
}
/* XXX */
static int
zap_leaf_array_equal (zap_leaf_phys_t * l, grub_zfs_endian_t endian,
int blksft, int chunk, grub_size_t array_len,
const char *buf, int case_insensitive)
{
grub_size_t bseen = 0;
while (bseen < array_len)
{
struct zap_leaf_array *la = &ZAP_LEAF_CHUNK (l, blksft, chunk)->l_array;
grub_size_t toread = array_len - bseen;
if (toread > ZAP_LEAF_ARRAY_BYTES)
toread = ZAP_LEAF_ARRAY_BYTES;
if (chunk >= ZAP_LEAF_NUMCHUNKS (blksft))
return 0;
if (name_cmp ((char *) la->la_array, buf + bseen, toread,
case_insensitive) != 0)
break;
chunk = grub_zfs_to_cpu16 (la->la_next, endian);
bseen += toread;
}
return (bseen == array_len);
}
/* XXX */
static grub_err_t
zap_leaf_array_get (zap_leaf_phys_t * l, grub_zfs_endian_t endian, int blksft,
int chunk, grub_size_t array_len, char *buf)
{
grub_size_t bseen = 0;
while (bseen < array_len)
{
struct zap_leaf_array *la = &ZAP_LEAF_CHUNK (l, blksft, chunk)->l_array;
grub_size_t toread = array_len - bseen;
if (toread > ZAP_LEAF_ARRAY_BYTES)
toread = ZAP_LEAF_ARRAY_BYTES;
if (chunk >= ZAP_LEAF_NUMCHUNKS (blksft))
/* Don't use grub_error because this error is to be ignored. */
return GRUB_ERR_BAD_FS;
grub_memcpy (buf + bseen,la->la_array, toread);
chunk = grub_zfs_to_cpu16 (la->la_next, endian);
bseen += toread;
}
return GRUB_ERR_NONE;
}
/*
* Given a zap_leaf_phys_t, walk thru the zap leaf chunks to get the
* value for the property "name".
*
*/
/* XXX */
static grub_err_t
zap_leaf_lookup (zap_leaf_phys_t * l, grub_zfs_endian_t endian,
int blksft, grub_uint64_t h,
const char *name, grub_uint64_t * value,
int case_insensitive)
{
grub_uint16_t chunk;
struct zap_leaf_entry *le;
/* Verify if this is a valid leaf block */
if (grub_zfs_to_cpu64 (l->l_hdr.lh_block_type, endian) != ZBT_LEAF)
return grub_error (GRUB_ERR_BAD_FS, "invalid leaf type");
if (grub_zfs_to_cpu32 (l->l_hdr.lh_magic, endian) != ZAP_LEAF_MAGIC)
return grub_error (GRUB_ERR_BAD_FS, "invalid leaf magic");
for (chunk = grub_zfs_to_cpu16 (l->l_hash[LEAF_HASH (blksft, h, l)], endian);
chunk != CHAIN_END; chunk = grub_zfs_to_cpu16 (le->le_next, endian))
{
if (chunk >= ZAP_LEAF_NUMCHUNKS (blksft))
return grub_error (GRUB_ERR_BAD_FS, "invalid chunk number");
le = ZAP_LEAF_ENTRY (l, blksft, chunk);
/* Verify the chunk entry */
if (le->le_type != ZAP_CHUNK_ENTRY)
return grub_error (GRUB_ERR_BAD_FS, "invalid chunk entry");
if (grub_zfs_to_cpu64 (le->le_hash,endian) != h)
continue;
grub_dprintf ("zfs", "fzap: length %d\n", (int) le->le_name_length);
if (zap_leaf_array_equal (l, endian, blksft,
grub_zfs_to_cpu16 (le->le_name_chunk,endian),
grub_zfs_to_cpu16 (le->le_name_length, endian),
name, case_insensitive))
{
struct zap_leaf_array *la;
if (le->le_int_size != 8 || grub_zfs_to_cpu16 (le->le_value_length,
endian) != 1)
return grub_error (GRUB_ERR_BAD_FS, "invalid leaf chunk entry");
/* get the uint64_t property value */
la = &ZAP_LEAF_CHUNK (l, blksft, le->le_value_chunk)->l_array;
*value = grub_be_to_cpu64 (la->la_array64);
return GRUB_ERR_NONE;
}
}
return grub_error (GRUB_ERR_FILE_NOT_FOUND, N_("file `%s' not found"), name);
}
/* Verify if this is a fat zap header block */
static grub_err_t
zap_verify (zap_phys_t *zap, grub_zfs_endian_t endian)
{
if (grub_zfs_to_cpu64 (zap->zap_magic, endian) != (grub_uint64_t) ZAP_MAGIC)
return grub_error (GRUB_ERR_BAD_FS, "bad ZAP magic");
if (zap->zap_salt == 0)
return grub_error (GRUB_ERR_BAD_FS, "bad ZAP salt");
return GRUB_ERR_NONE;
}
/*
* Fat ZAP lookup
*
*/
/* XXX */
static grub_err_t
fzap_lookup (dnode_end_t * zap_dnode, zap_phys_t * zap,
Add missing const qualifiers. * grub-core/commands/i386/pc/sendkey.c (keysym): Add missing const. * grub-core/commands/lspci.c (grub_pci_classname): Likewise. * grub-core/commands/menuentry.c (hotkey_aliases): Likewise. * grub-core/disk/lvm.c (grub_lvm_getvalue): Likewise. (grub_lvm_check_flag): Likewise. * grub-core/efiemu/i386/coredetect.c (grub_efiemu_get_default_core_name): Likewise * grub-core/efiemu/main.c (grub_efiemu_autocore): Likewise. * grub-core/fs/hfsplus.c (grub_hfsplus_catkey_internal): Likewise. * grub-core/fs/ntfs.c (fixup): Likewise. * grub-core/fs/xfs.c (grub_xfs_iterate_dir): Likewise. * grub-core/fs/zfs/zfs.c (decomp_entry): Likewise. (fzap_lookup): Likewise. (zap_lookup): Likewise. * grub-core/gnulib/regcomp.c (init_dfa): Likewise. * grub-core/lib/legacy_parse.c (check_option): Likewise. * grub-core/lib/posix_wrap/langinfo.h (nl_langinfo): Likewise. * grub-core/loader/i386/bsd.c (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. (grub_cmd_freebsd_module): Likewise. * grub-core/loader/i386/xnu.c (tbl_alias): Likewise. * grub-core/loader/xnu.c (grub_xnu_register_memory): Likewise. (grub_xnu_writetree_get_size): Likewise. (grub_xnu_writetree_toheap_real): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_register_memory): Likewise. (grub_xnu_check_os_bundle_required): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * grub-core/normal/color.c (color_list): Likewise. * grub-core/normal/completion.c (current_word): Likewise. * grub-core/normal/menu_entry.c (insert_string): Likewise. * grub-core/term/serial.c (grub_serial_find): Likewise. * grub-core/term/tparm.c (grub_terminfo_tparm): Likewise. * include/grub/efiemu/efiemu.h (grub_efiemu_get_default_core_name): Likewise. * include/grub/i386/bsd.h (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. * include/grub/lib/arg.h (grub_arg_option): Likewise. * include/grub/net.h (grub_net_card_driver): Likewise. (grub_net_card): Likewise. (grub_net_app_protocol): Likewise. * include/grub/parttool.h (grub_parttool_argdesc): Likewise. * include/grub/serial.h (grub_serial_find): Likewise. * include/grub/tparm.h (grub_terminfo_tparm): Likewise. * include/grub/xnu.h (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * include/grub/zfs/zio_checksum.h (zio_checksum_t): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_t): ...here. * include/grub/zfs/zio_checksum.h (zio_checksum_info): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_info): ... here. Added missing const.
2011-11-30 15:20:13 +00:00
const char *name, grub_uint64_t * value,
struct grub_zfs_data *data, int case_insensitive)
{
void *l;
grub_uint64_t hash, idx, blkid;
int blksft = zfs_log2 (grub_zfs_to_cpu16 (zap_dnode->dn.dn_datablkszsec,
zap_dnode->endian) << DNODE_SHIFT);
grub_err_t err;
grub_zfs_endian_t leafendian;
err = zap_verify (zap, zap_dnode->endian);
if (err)
return err;
hash = zap_hash (zap->zap_salt, name, case_insensitive);
/* get block id from index */
if (zap->zap_ptrtbl.zt_numblks != 0)
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"external pointer tables not supported");
idx = ZAP_HASH_IDX (hash, zap->zap_ptrtbl.zt_shift);
blkid = grub_zfs_to_cpu64 (((grub_uint64_t *) zap)[idx + (1 << (blksft - 3 - 1))], zap_dnode->endian);
/* Get the leaf block */
if ((1U << blksft) < sizeof (zap_leaf_phys_t))
return grub_error (GRUB_ERR_BAD_FS, "ZAP leaf is too small");
err = dmu_read (zap_dnode, blkid, &l, &leafendian, data);
if (err)
return err;
err = zap_leaf_lookup (l, leafendian, blksft, hash, name, value,
case_insensitive);
grub_free (l);
return err;
}
/* XXX */
static int
fzap_iterate (dnode_end_t * zap_dnode, zap_phys_t * zap,
grub_size_t name_elem_length,
int (*hook) (const void *name, grub_size_t name_length,
const void *val_in,
grub_size_t nelem, grub_size_t elemsize,
void *data),
void *hook_data, struct grub_zfs_data *data)
{
zap_leaf_phys_t *l;
void *l_in;
grub_uint64_t idx, idx2, blkid;
grub_uint16_t chunk;
int blksft = zfs_log2 (grub_zfs_to_cpu16 (zap_dnode->dn.dn_datablkszsec,
zap_dnode->endian) << DNODE_SHIFT);
grub_err_t err;
grub_zfs_endian_t endian;
if (zap_verify (zap, zap_dnode->endian))
return 0;
/* get block id from index */
if (zap->zap_ptrtbl.zt_numblks != 0)
{
grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"external pointer tables not supported");
return 0;
}
/* Get the leaf block */
if ((1U << blksft) < sizeof (zap_leaf_phys_t))
{
grub_error (GRUB_ERR_BAD_FS, "ZAP leaf is too small");
return 0;
}
for (idx = 0; idx < (1ULL << zap->zap_ptrtbl.zt_shift); idx++)
{
blkid = grub_zfs_to_cpu64 (((grub_uint64_t *) zap)[idx + (1 << (blksft - 3 - 1))],
zap_dnode->endian);
for (idx2 = 0; idx2 < idx; idx2++)
if (blkid == grub_zfs_to_cpu64 (((grub_uint64_t *) zap)[idx2 + (1 << (blksft - 3 - 1))],
zap_dnode->endian))
break;
if (idx2 != idx)
continue;
err = dmu_read (zap_dnode, blkid, &l_in, &endian, data);
l = l_in;
if (err)
{
grub_errno = GRUB_ERR_NONE;
continue;
}
/* Verify if this is a valid leaf block */
if (grub_zfs_to_cpu64 (l->l_hdr.lh_block_type, endian) != ZBT_LEAF)
{
grub_free (l);
continue;
}
if (grub_zfs_to_cpu32 (l->l_hdr.lh_magic, endian) != ZAP_LEAF_MAGIC)
{
grub_free (l);
continue;
}
for (chunk = 0; chunk < ZAP_LEAF_NUMCHUNKS (blksft); chunk++)
{
char *buf;
struct zap_leaf_entry *le;
char *val;
grub_size_t val_length;
le = ZAP_LEAF_ENTRY (l, blksft, chunk);
/* Verify the chunk entry */
if (le->le_type != ZAP_CHUNK_ENTRY)
continue;
buf = grub_malloc (grub_zfs_to_cpu16 (le->le_name_length, endian)
* name_elem_length + 1);
if (zap_leaf_array_get (l, endian, blksft,
grub_zfs_to_cpu16 (le->le_name_chunk,
endian),
grub_zfs_to_cpu16 (le->le_name_length,
endian)
* name_elem_length, buf))
{
grub_free (buf);
continue;
}
buf[le->le_name_length * name_elem_length] = 0;
val_length = ((int) le->le_value_length
* (int) le->le_int_size);
val = grub_malloc (grub_zfs_to_cpu16 (val_length, endian));
if (zap_leaf_array_get (l, endian, blksft,
grub_zfs_to_cpu16 (le->le_value_chunk,
endian),
val_length, val))
{
grub_free (buf);
grub_free (val);
continue;
}
if (hook (buf, le->le_name_length,
val, le->le_value_length, le->le_int_size, hook_data))
{
grub_free (l);
return 1;
}
grub_free (buf);
grub_free (val);
}
grub_free (l);
}
return 0;
}
/*
* Read in the data of a zap object and find the value for a matching
* property name.
*
*/
static grub_err_t
Add missing const qualifiers. * grub-core/commands/i386/pc/sendkey.c (keysym): Add missing const. * grub-core/commands/lspci.c (grub_pci_classname): Likewise. * grub-core/commands/menuentry.c (hotkey_aliases): Likewise. * grub-core/disk/lvm.c (grub_lvm_getvalue): Likewise. (grub_lvm_check_flag): Likewise. * grub-core/efiemu/i386/coredetect.c (grub_efiemu_get_default_core_name): Likewise * grub-core/efiemu/main.c (grub_efiemu_autocore): Likewise. * grub-core/fs/hfsplus.c (grub_hfsplus_catkey_internal): Likewise. * grub-core/fs/ntfs.c (fixup): Likewise. * grub-core/fs/xfs.c (grub_xfs_iterate_dir): Likewise. * grub-core/fs/zfs/zfs.c (decomp_entry): Likewise. (fzap_lookup): Likewise. (zap_lookup): Likewise. * grub-core/gnulib/regcomp.c (init_dfa): Likewise. * grub-core/lib/legacy_parse.c (check_option): Likewise. * grub-core/lib/posix_wrap/langinfo.h (nl_langinfo): Likewise. * grub-core/loader/i386/bsd.c (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. (grub_cmd_freebsd_module): Likewise. * grub-core/loader/i386/xnu.c (tbl_alias): Likewise. * grub-core/loader/xnu.c (grub_xnu_register_memory): Likewise. (grub_xnu_writetree_get_size): Likewise. (grub_xnu_writetree_toheap_real): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_register_memory): Likewise. (grub_xnu_check_os_bundle_required): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * grub-core/normal/color.c (color_list): Likewise. * grub-core/normal/completion.c (current_word): Likewise. * grub-core/normal/menu_entry.c (insert_string): Likewise. * grub-core/term/serial.c (grub_serial_find): Likewise. * grub-core/term/tparm.c (grub_terminfo_tparm): Likewise. * include/grub/efiemu/efiemu.h (grub_efiemu_get_default_core_name): Likewise. * include/grub/i386/bsd.h (grub_bsd_add_meta): Likewise. (grub_freebsd_add_meta_module): Likewise. * include/grub/lib/arg.h (grub_arg_option): Likewise. * include/grub/net.h (grub_net_card_driver): Likewise. (grub_net_card): Likewise. (grub_net_app_protocol): Likewise. * include/grub/parttool.h (grub_parttool_argdesc): Likewise. * include/grub/serial.h (grub_serial_find): Likewise. * include/grub/tparm.h (grub_terminfo_tparm): Likewise. * include/grub/xnu.h (grub_xnu_create_key): Likewise. (grub_xnu_create_value): Likewise. (grub_xnu_find_key): Likewise. (grub_xnu_scan_dir_for_kexts): Likewise. (grub_xnu_load_kext_from_dir): Likewise. * include/grub/zfs/zio_checksum.h (zio_checksum_t): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_t): ...here. * include/grub/zfs/zio_checksum.h (zio_checksum_info): Moved from here ... * grub-core/fs/zfs/zfs.c (zio_checksum_info): ... here. Added missing const.
2011-11-30 15:20:13 +00:00
zap_lookup (dnode_end_t * zap_dnode, const char *name, grub_uint64_t *val,
struct grub_zfs_data *data, int case_insensitive)
{
grub_uint64_t block_type;
grub_uint32_t size;
void *zapbuf;
grub_err_t err;
grub_zfs_endian_t endian;
grub_dprintf ("zfs", "looking for '%s'\n", name);
/* Read in the first block of the zap object data. */
size = (grub_uint32_t) grub_zfs_to_cpu16 (zap_dnode->dn.dn_datablkszsec,
zap_dnode->endian) << SPA_MINBLOCKSHIFT;
err = dmu_read (zap_dnode, 0, &zapbuf, &endian, data);
if (err)
return err;
block_type = grub_zfs_to_cpu64 (*((grub_uint64_t *) zapbuf), endian);
grub_dprintf ("zfs", "zap read\n");
if (block_type == ZBT_MICRO)
{
grub_dprintf ("zfs", "micro zap\n");
err = mzap_lookup (zapbuf, endian, size, name, val,
case_insensitive);
grub_dprintf ("zfs", "returned %d\n", err);
grub_free (zapbuf);
return err;
}
else if (block_type == ZBT_HEADER)
{
grub_dprintf ("zfs", "fat zap\n");
/* this is a fat zap */
err = fzap_lookup (zap_dnode, zapbuf, name, val, data,
case_insensitive);
grub_dprintf ("zfs", "returned %d\n", err);
grub_free (zapbuf);
return err;
}
return grub_error (GRUB_ERR_BAD_FS, "unknown ZAP type");
}
/* Context for zap_iterate_u64. */
struct zap_iterate_u64_ctx
{
int (*hook) (const char *, grub_uint64_t, struct grub_zfs_dir_ctx *);
struct grub_zfs_dir_ctx *dir_ctx;
};
/* Helper for zap_iterate_u64. */
static int
zap_iterate_u64_transform (const void *name,
grub_size_t namelen __attribute__ ((unused)),
const void *val_in,
grub_size_t nelem,
grub_size_t elemsize,
void *data)
{
struct zap_iterate_u64_ctx *ctx = data;
if (elemsize != sizeof (grub_uint64_t) || nelem != 1)
return 0;
return ctx->hook (name, grub_be_to_cpu64 (*(const grub_uint64_t *) val_in),
ctx->dir_ctx);
}
static int
zap_iterate_u64 (dnode_end_t * zap_dnode,
int (*hook) (const char *name, grub_uint64_t val,
struct grub_zfs_dir_ctx *ctx),
struct grub_zfs_data *data, struct grub_zfs_dir_ctx *ctx)
{
grub_uint64_t block_type;
int size;
void *zapbuf;
grub_err_t err;
int ret;
grub_zfs_endian_t endian;
/* Read in the first block of the zap object data. */
size = grub_zfs_to_cpu16 (zap_dnode->dn.dn_datablkszsec, zap_dnode->endian) << SPA_MINBLOCKSHIFT;
err = dmu_read (zap_dnode, 0, &zapbuf, &endian, data);
if (err)
return 0;
block_type = grub_zfs_to_cpu64 (*((grub_uint64_t *) zapbuf), endian);
grub_dprintf ("zfs", "zap iterate\n");
if (block_type == ZBT_MICRO)
{
grub_dprintf ("zfs", "micro zap\n");
ret = mzap_iterate (zapbuf, endian, size, hook, ctx);
grub_free (zapbuf);
return ret;
}
else if (block_type == ZBT_HEADER)
{
struct zap_iterate_u64_ctx transform_ctx = {
.hook = hook,
.dir_ctx = ctx
};
grub_dprintf ("zfs", "fat zap\n");
/* this is a fat zap */
ret = fzap_iterate (zap_dnode, zapbuf, 1,
zap_iterate_u64_transform, &transform_ctx, data);
grub_free (zapbuf);
return ret;
}
grub_error (GRUB_ERR_BAD_FS, "unknown ZAP type");
return 0;
}
static int
zap_iterate (dnode_end_t * zap_dnode,
grub_size_t nameelemlen,
int (*hook) (const void *name, grub_size_t namelen,
const void *val_in,
grub_size_t nelem, grub_size_t elemsize,
void *data),
void *hook_data, struct grub_zfs_data *data)
{
grub_uint64_t block_type;
void *zapbuf;
grub_err_t err;
int ret;
grub_zfs_endian_t endian;
/* Read in the first block of the zap object data. */
err = dmu_read (zap_dnode, 0, &zapbuf, &endian, data);
if (err)
return 0;
block_type = grub_zfs_to_cpu64 (*((grub_uint64_t *) zapbuf), endian);
grub_dprintf ("zfs", "zap iterate\n");
if (block_type == ZBT_MICRO)
{
grub_error (GRUB_ERR_BAD_FS, "micro ZAP where FAT ZAP expected");
return 0;
}
if (block_type == ZBT_HEADER)
{
grub_dprintf ("zfs", "fat zap\n");
/* this is a fat zap */
ret = fzap_iterate (zap_dnode, zapbuf, nameelemlen, hook, hook_data,
data);
grub_free (zapbuf);
return ret;
}
grub_error (GRUB_ERR_BAD_FS, "unknown ZAP type");
return 0;
}
/*
* Get the dnode of an object number from the metadnode of an object set.
*
* Input
* mdn - metadnode to get the object dnode
* objnum - object number for the object dnode
* buf - data buffer that holds the returning dnode
*/
static grub_err_t
dnode_get (dnode_end_t * mdn, grub_uint64_t objnum, grub_uint8_t type,
dnode_end_t * buf, struct grub_zfs_data *data)
{
grub_uint64_t blkid, blksz; /* the block id this object dnode is in */
int epbs; /* shift of number of dnodes in a block */
int idx; /* index within a block */
void *dnbuf;
grub_err_t err;
grub_zfs_endian_t endian;
blksz = grub_zfs_to_cpu16 (mdn->dn.dn_datablkszsec,
mdn->endian) << SPA_MINBLOCKSHIFT;
epbs = zfs_log2 (blksz) - DNODE_SHIFT;
blkid = objnum >> epbs;
idx = objnum & ((1 << epbs) - 1);
if (data->dnode_buf != NULL && grub_memcmp (data->dnode_mdn, mdn,
sizeof (*mdn)) == 0
&& objnum >= data->dnode_start && objnum < data->dnode_end)
{
grub_memmove (&(buf->dn), &(data->dnode_buf)[idx], DNODE_SIZE);
buf->endian = data->dnode_endian;
if (type && buf->dn.dn_type != type)
return grub_error(GRUB_ERR_BAD_FS, "incorrect dnode type");
return GRUB_ERR_NONE;
}
grub_dprintf ("zfs", "endian = %d, blkid=%llx\n", mdn->endian,
(unsigned long long) blkid);
err = dmu_read (mdn, blkid, &dnbuf, &endian, data);
if (err)
return err;
grub_dprintf ("zfs", "alive\n");
grub_free (data->dnode_buf);
grub_free (data->dnode_mdn);
data->dnode_mdn = grub_malloc (sizeof (*mdn));
if (! data->dnode_mdn)
{
grub_errno = GRUB_ERR_NONE;
data->dnode_buf = 0;
}
else
{
grub_memcpy (data->dnode_mdn, mdn, sizeof (*mdn));
data->dnode_buf = dnbuf;
data->dnode_start = blkid << epbs;
data->dnode_end = (blkid + 1) << epbs;
data->dnode_endian = endian;
}
grub_memmove (&(buf->dn), (dnode_phys_t *) dnbuf + idx, DNODE_SIZE);
buf->endian = endian;
if (type && buf->dn.dn_type != type)
return grub_error(GRUB_ERR_BAD_FS, "incorrect dnode type");
return GRUB_ERR_NONE;
}
#pragma GCC diagnostic ignored "-Wstrict-aliasing"
/*
* Get the file dnode for a given file name where mdn is the meta dnode
* for this ZFS object set. When found, place the file dnode in dn.
* The 'path' argument will be mangled.
*
*/
static grub_err_t
dnode_get_path (struct subvolume *subvol, const char *path_in, dnode_end_t *dn,
struct grub_zfs_data *data)
{
grub_uint64_t objnum, version;
char *cname, ch;
grub_err_t err = GRUB_ERR_NONE;
char *path, *path_buf;
struct dnode_chain
{
struct dnode_chain *next;
dnode_end_t dn;
};
struct dnode_chain *dnode_path = 0, *dn_new, *root;
dn_new = grub_malloc (sizeof (*dn_new));
if (! dn_new)
return grub_errno;
dn_new->next = 0;
dnode_path = root = dn_new;
err = dnode_get (&subvol->mdn, MASTER_NODE_OBJ, DMU_OT_MASTER_NODE,
&(dnode_path->dn), data);
if (err)
{
grub_free (dn_new);
return err;
}
err = zap_lookup (&(dnode_path->dn), ZPL_VERSION_STR, &version,
data, 0);
if (err)
{
grub_free (dn_new);
return err;
}
if (version > ZPL_VERSION)
{
grub_free (dn_new);
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET, "too new ZPL version");
}
err = zap_lookup (&(dnode_path->dn), "casesensitivity",
&subvol->case_insensitive,
data, 0);
if (err == GRUB_ERR_FILE_NOT_FOUND)
{
grub_errno = GRUB_ERR_NONE;
subvol->case_insensitive = 0;
}
err = zap_lookup (&(dnode_path->dn), ZFS_ROOT_OBJ, &objnum, data, 0);
if (err)
{
grub_free (dn_new);
return err;
}
err = dnode_get (&subvol->mdn, objnum, 0, &(dnode_path->dn), data);
if (err)
{
grub_free (dn_new);
return err;
}
path = path_buf = grub_strdup (path_in);
if (!path_buf)
{
grub_free (dn_new);
return grub_errno;
}
while (1)
{
/* skip leading slashes */
while (*path == '/')
path++;
if (!*path)
break;
/* get the next component name */
cname = path;
while (*path && *path != '/')
path++;
/* Skip dot. */
if (cname + 1 == path && cname[0] == '.')
continue;
/* Handle double dot. */
if (cname + 2 == path && cname[0] == '.' && cname[1] == '.')
{
if (dn_new->next)
{
dn_new = dnode_path;
dnode_path = dn_new->next;
grub_free (dn_new);
}
else
{
err = grub_error (GRUB_ERR_FILE_NOT_FOUND,
"can't resolve ..");
break;
}
continue;
}
ch = *path;
*path = 0; /* ensure null termination */
if (dnode_path->dn.dn.dn_type != DMU_OT_DIRECTORY_CONTENTS)
{
grub_free (path_buf);
return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("not a directory"));
}
err = zap_lookup (&(dnode_path->dn), cname, &objnum,
data, subvol->case_insensitive);
if (err)
break;
dn_new = grub_malloc (sizeof (*dn_new));
if (! dn_new)
{
err = grub_errno;
break;
}
dn_new->next = dnode_path;
dnode_path = dn_new;
objnum = ZFS_DIRENT_OBJ (objnum);
err = dnode_get (&subvol->mdn, objnum, 0, &(dnode_path->dn), data);
if (err)
break;
*path = ch;
2011-10-27 00:04:04 +00:00
if (dnode_path->dn.dn.dn_bonustype == DMU_OT_ZNODE
&& ((grub_zfs_to_cpu64(((znode_phys_t *) DN_BONUS (&dnode_path->dn.dn))->zp_mode, dnode_path->dn.endian) >> 12) & 0xf) == 0xa)
{
char *sym_value;
grub_size_t sym_sz;
int free_symval = 0;
char *oldpath = path, *oldpathbuf = path_buf;
sym_value = ((char *) DN_BONUS (&dnode_path->dn.dn) + sizeof (struct znode_phys));
sym_sz = grub_zfs_to_cpu64 (((znode_phys_t *) DN_BONUS (&dnode_path->dn.dn))->zp_size, dnode_path->dn.endian);
2011-10-27 00:04:04 +00:00
if (dnode_path->dn.dn.dn_flags & 1)
{
grub_size_t block;
grub_size_t blksz;
blksz = (grub_zfs_to_cpu16 (dnode_path->dn.dn.dn_datablkszsec,
dnode_path->dn.endian)
<< SPA_MINBLOCKSHIFT);
if (blksz == 0)
return grub_error(GRUB_ERR_BAD_FS, "0-sized block");
sym_value = grub_malloc (sym_sz);
if (!sym_value)
return grub_errno;
for (block = 0; block < (sym_sz + blksz - 1) / blksz; block++)
{
void *t;
grub_size_t movesize;
err = dmu_read (&(dnode_path->dn), block, &t, 0, data);
if (err)
{
grub_free (sym_value);
return err;
}
movesize = sym_sz - block * blksz;
if (movesize > blksz)
movesize = blksz;
grub_memcpy (sym_value + block * blksz, t, movesize);
grub_free (t);
}
free_symval = 1;
}
path = path_buf = grub_malloc (sym_sz + grub_strlen (oldpath) + 1);
if (!path_buf)
{
grub_free (oldpathbuf);
if (free_symval)
grub_free (sym_value);
return grub_errno;
}
grub_memcpy (path, sym_value, sym_sz);
if (free_symval)
grub_free (sym_value);
path [sym_sz] = 0;
grub_memcpy (path + grub_strlen (path), oldpath,
grub_strlen (oldpath) + 1);
grub_free (oldpathbuf);
if (path[0] != '/')
{
dn_new = dnode_path;
dnode_path = dn_new->next;
grub_free (dn_new);
}
else while (dnode_path != root)
{
dn_new = dnode_path;
dnode_path = dn_new->next;
grub_free (dn_new);
}
}
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if (dnode_path->dn.dn.dn_bonustype == DMU_OT_SA)
{
void *sahdrp;
int hdrsize;
if (dnode_path->dn.dn.dn_bonuslen != 0)
{
sahdrp = DN_BONUS (&dnode_path->dn.dn);
}
else if (dnode_path->dn.dn.dn_flags & DNODE_FLAG_SPILL_BLKPTR)
{
blkptr_t *bp = &dnode_path->dn.dn.dn_spill;
err = zio_read (bp, dnode_path->dn.endian, &sahdrp, NULL, data);
if (err)
return err;
}
else
{
return grub_error (GRUB_ERR_BAD_FS, "filesystem is corrupt");
}
hdrsize = SA_HDR_SIZE (((sa_hdr_phys_t *) sahdrp));
if (((grub_zfs_to_cpu64 (grub_get_unaligned64 ((char *) sahdrp
+ hdrsize
+ SA_TYPE_OFFSET),
dnode_path->dn.endian) >> 12) & 0xf) == 0xa)
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{
char *sym_value = (char *) sahdrp + hdrsize + SA_SYMLINK_OFFSET;
grub_size_t sym_sz =
grub_zfs_to_cpu64 (grub_get_unaligned64 ((char *) sahdrp
+ hdrsize
+ SA_SIZE_OFFSET),
dnode_path->dn.endian);
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char *oldpath = path, *oldpathbuf = path_buf;
path = path_buf = grub_malloc (sym_sz + grub_strlen (oldpath) + 1);
if (!path_buf)
{
grub_free (oldpathbuf);
return grub_errno;
}
grub_memcpy (path, sym_value, sym_sz);
path [sym_sz] = 0;
grub_memcpy (path + grub_strlen (path), oldpath,
grub_strlen (oldpath) + 1);
grub_free (oldpathbuf);
if (path[0] != '/')
{
dn_new = dnode_path;
dnode_path = dn_new->next;
grub_free (dn_new);
}
else while (dnode_path != root)
{
dn_new = dnode_path;
dnode_path = dn_new->next;
grub_free (dn_new);
}
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}
}
}
if (!err)
grub_memcpy (dn, &(dnode_path->dn), sizeof (*dn));
while (dnode_path)
{
dn_new = dnode_path->next;
grub_free (dnode_path);
dnode_path = dn_new;
}
grub_free (path_buf);
return err;
}
#if 0
/*
* Get the default 'bootfs' property value from the rootpool.
*
*/
static grub_err_t
get_default_bootfsobj (dnode_phys_t * mosmdn, grub_uint64_t * obj,
struct grub_zfs_data *data)
{
grub_uint64_t objnum = 0;
dnode_phys_t *dn;
if (!dn)
return grub_errno;
if ((grub_errno = dnode_get (mosmdn, DMU_POOL_DIRECTORY_OBJECT,
DMU_OT_OBJECT_DIRECTORY, dn, data)))
{
grub_free (dn);
return (grub_errno);
}
/*
* find the object number for 'pool_props', and get the dnode
* of the 'pool_props'.
*/
if (zap_lookup (dn, DMU_POOL_PROPS, &objnum, data))
{
grub_free (dn);
return (GRUB_ERR_BAD_FS);
}
if ((grub_errno = dnode_get (mosmdn, objnum, DMU_OT_POOL_PROPS, dn, data)))
{
grub_free (dn);
return (grub_errno);
}
if (zap_lookup (dn, ZPOOL_PROP_BOOTFS, &objnum, data))
{
grub_free (dn);
return (GRUB_ERR_BAD_FS);
}
if (!objnum)
{
grub_free (dn);
return (GRUB_ERR_BAD_FS);
}
*obj = objnum;
return (0);
}
#endif
/*
* Given a MOS metadnode, get the metadnode of a given filesystem name (fsname),
* e.g. pool/rootfs, or a given object number (obj), e.g. the object number
* of pool/rootfs.
*
* If no fsname and no obj are given, return the DSL_DIR metadnode.
* If fsname is given, return its metadnode and its matching object number.
* If only obj is given, return the metadnode for this object number.
*
*/
static grub_err_t
get_filesystem_dnode (dnode_end_t * mosmdn, char *fsname,
dnode_end_t * mdn, struct grub_zfs_data *data)
{
grub_uint64_t objnum;
grub_err_t err;
grub_dprintf ("zfs", "endian = %d\n", mosmdn->endian);
err = dnode_get (mosmdn, DMU_POOL_DIRECTORY_OBJECT,
DMU_OT_OBJECT_DIRECTORY, mdn, data);
if (err)
return err;
grub_dprintf ("zfs", "alive\n");
err = zap_lookup (mdn, DMU_POOL_ROOT_DATASET, &objnum, data, 0);
if (err)
return err;
grub_dprintf ("zfs", "alive\n");
err = dnode_get (mosmdn, objnum, 0, mdn, data);
if (err)
return err;
grub_dprintf ("zfs", "alive\n");
while (*fsname)
{
grub_uint64_t childobj;
char *cname, ch;
while (*fsname == '/')
fsname++;
if (! *fsname || *fsname == '@')
break;
cname = fsname;
while (*fsname && *fsname != '/')
fsname++;
ch = *fsname;
*fsname = 0;
childobj = grub_zfs_to_cpu64 ((((dsl_dir_phys_t *) DN_BONUS (&mdn->dn)))->dd_child_dir_zapobj, mdn->endian);
err = dnode_get (mosmdn, childobj,
DMU_OT_DSL_DIR_CHILD_MAP, mdn, data);
if (err)
return err;
err = zap_lookup (mdn, cname, &objnum, data, 0);
if (err)
return err;
err = dnode_get (mosmdn, objnum, 0, mdn, data);
if (err)
return err;
*fsname = ch;
}
return GRUB_ERR_NONE;
}
static grub_err_t
make_mdn (dnode_end_t * mdn, struct grub_zfs_data *data)
{
void *osp;
blkptr_t *bp;
2016-02-17 16:56:41 +00:00
grub_size_t ospsize = 0;
grub_err_t err;
grub_dprintf ("zfs", "endian = %d\n", mdn->endian);
bp = &(((dsl_dataset_phys_t *) DN_BONUS (&mdn->dn))->ds_bp);
err = zio_read (bp, mdn->endian, &osp, &ospsize, data);
if (err)
return err;
if (ospsize < OBJSET_PHYS_SIZE_V14)
{
grub_free (osp);
return grub_error (GRUB_ERR_BAD_FS, "too small osp");
}
mdn->endian = (grub_zfs_to_cpu64 (bp->blk_prop, mdn->endian)>>63) & 1;
grub_memmove ((char *) &(mdn->dn),
(char *) &((objset_phys_t *) osp)->os_meta_dnode, DNODE_SIZE);
grub_free (osp);
return GRUB_ERR_NONE;
}
/* Context for dnode_get_fullpath. */
struct dnode_get_fullpath_ctx
{
struct subvolume *subvol;
grub_uint64_t salt;
int keyn;
};
/* Helper for dnode_get_fullpath. */
static int
count_zap_keys (const void *name __attribute__ ((unused)),
grub_size_t namelen __attribute__ ((unused)),
const void *val_in __attribute__ ((unused)),
grub_size_t nelem __attribute__ ((unused)),
grub_size_t elemsize __attribute__ ((unused)),
void *data)
{
struct dnode_get_fullpath_ctx *ctx = data;
ctx->subvol->nkeys++;
return 0;
}
/* Helper for dnode_get_fullpath. */
static int
load_zap_key (const void *name, grub_size_t namelen, const void *val_in,
grub_size_t nelem, grub_size_t elemsize, void *data)
{
struct dnode_get_fullpath_ctx *ctx = data;
if (namelen != 1)
{
grub_dprintf ("zfs", "Unexpected key index size %" PRIuGRUB_SIZE "\n",
namelen);
return 0;
}
if (elemsize != 1)
{
grub_dprintf ("zfs", "Unexpected key element size %" PRIuGRUB_SIZE "\n",
elemsize);
return 0;
}
ctx->subvol->keyring[ctx->keyn].txg =
grub_be_to_cpu64 (*(grub_uint64_t *) name);
ctx->subvol->keyring[ctx->keyn].algo =
grub_le_to_cpu64 (*(grub_uint64_t *) val_in);
ctx->subvol->keyring[ctx->keyn].cipher =
grub_zfs_load_key (val_in, nelem, ctx->salt,
ctx->subvol->keyring[ctx->keyn].algo);
ctx->keyn++;
return 0;
}
static grub_err_t
dnode_get_fullpath (const char *fullpath, struct subvolume *subvol,
dnode_end_t * dn, int *isfs,
struct grub_zfs_data *data)
{
char *fsname, *snapname;
const char *ptr_at, *filename;
grub_uint64_t headobj;
grub_uint64_t keychainobj;
grub_err_t err;
ptr_at = grub_strchr (fullpath, '@');
if (! ptr_at)
{
*isfs = 1;
filename = 0;
snapname = 0;
fsname = grub_strdup (fullpath);
}
else
{
const char *ptr_slash = grub_strchr (ptr_at, '/');
*isfs = 0;
fsname = grub_malloc (ptr_at - fullpath + 1);
if (!fsname)
return grub_errno;
grub_memcpy (fsname, fullpath, ptr_at - fullpath);
fsname[ptr_at - fullpath] = 0;
if (ptr_at[1] && ptr_at[1] != '/')
{
snapname = grub_malloc (ptr_slash - ptr_at);
if (!snapname)
{
grub_free (fsname);
return grub_errno;
}
grub_memcpy (snapname, ptr_at + 1, ptr_slash - ptr_at - 1);
snapname[ptr_slash - ptr_at - 1] = 0;
}
else
snapname = 0;
if (ptr_slash)
filename = ptr_slash;
else
filename = "/";
grub_dprintf ("zfs", "fsname = '%s' snapname='%s' filename = '%s'\n",
fsname, snapname, filename);
}
grub_dprintf ("zfs", "alive\n");
err = get_filesystem_dnode (&(data->mos), fsname, dn, data);
if (err)
{
grub_free (fsname);
grub_free (snapname);
return err;
}
grub_dprintf ("zfs", "alive\n");
headobj = grub_zfs_to_cpu64 (((dsl_dir_phys_t *) DN_BONUS (&dn->dn))->dd_head_dataset_obj, dn->endian);
grub_dprintf ("zfs", "endian = %d\n", subvol->mdn.endian);
err = dnode_get (&(data->mos), headobj, 0, &subvol->mdn, data);
if (err)
{
grub_free (fsname);
grub_free (snapname);
return err;
}
grub_dprintf ("zfs", "endian = %d\n", subvol->mdn.endian);
keychainobj = grub_zfs_to_cpu64 (((dsl_dir_phys_t *) DN_BONUS (&dn->dn))->keychain, dn->endian);
2011-11-06 14:18:25 +00:00
if (grub_zfs_load_key && keychainobj)
{
struct dnode_get_fullpath_ctx ctx = {
.subvol = subvol,
.keyn = 0
};
2011-11-06 15:30:52 +00:00
dnode_end_t keychain_dn, props_dn;
grub_uint64_t propsobj;
propsobj = grub_zfs_to_cpu64 (((dsl_dir_phys_t *) DN_BONUS (&dn->dn))->dd_props_zapobj, dn->endian);
err = dnode_get (&(data->mos), propsobj, DMU_OT_DSL_PROPS,
&props_dn, data);
if (err)
{
grub_free (fsname);
grub_free (snapname);
return err;
}
err = zap_lookup (&props_dn, "salt", &ctx.salt, data, 0);
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if (err == GRUB_ERR_FILE_NOT_FOUND)
{
err = 0;
grub_errno = 0;
ctx.salt = 0;
2011-11-06 15:30:52 +00:00
}
if (err)
{
grub_dprintf ("zfs", "failed here\n");
return err;
}
err = dnode_get (&(data->mos), keychainobj, DMU_OT_DSL_KEYCHAIN,
&keychain_dn, data);
if (err)
{
grub_free (fsname);
grub_free (snapname);
return err;
}
subvol->nkeys = 0;
zap_iterate (&keychain_dn, 8, count_zap_keys, &ctx, data);
subvol->keyring = grub_calloc (subvol->nkeys, sizeof (subvol->keyring[0]));
if (!subvol->keyring)
{
grub_free (fsname);
grub_free (snapname);
return err;
}
zap_iterate (&keychain_dn, 8, load_zap_key, &ctx, data);
}
if (snapname)
{
grub_uint64_t snapobj;
snapobj = grub_zfs_to_cpu64 (((dsl_dataset_phys_t *) DN_BONUS (&subvol->mdn.dn))->ds_snapnames_zapobj, subvol->mdn.endian);
err = dnode_get (&(data->mos), snapobj,
DMU_OT_DSL_DS_SNAP_MAP, &subvol->mdn, data);
if (!err)
err = zap_lookup (&subvol->mdn, snapname, &headobj, data, 0);
if (!err)
err = dnode_get (&(data->mos), headobj, DMU_OT_DSL_DATASET,
&subvol->mdn, data);
if (err)
{
grub_free (fsname);
grub_free (snapname);
return err;
}
}
subvol->obj = headobj;
make_mdn (&subvol->mdn, data);
grub_dprintf ("zfs", "endian = %d\n", subvol->mdn.endian);
if (*isfs)
{
grub_free (fsname);
grub_free (snapname);
return GRUB_ERR_NONE;
}
err = dnode_get_path (subvol, filename, dn, data);
grub_free (fsname);
grub_free (snapname);
return err;
}
static int
nvlist_find_value (const char *nvlist_in, const char *name,
2010-12-06 01:31:22 +00:00
int valtype, char **val,
grub_size_t *size_out, grub_size_t *nelm_out)
{
grub_size_t nvp_name_len, name_len = grub_strlen(name);
int type;
const char *nvpair=NULL,*nvlist=nvlist_in;
char *nvp_name;
/* Verify if the 1st and 2nd byte in the nvlist are valid. */
/* NOTE: independently of what endianness header announces all
subsequent values are big-endian. */
if (nvlist[0] != NV_ENCODE_XDR || (nvlist[1] != NV_LITTLE_ENDIAN
&& nvlist[1] != NV_BIG_ENDIAN))
{
grub_dprintf ("zfs", "incorrect nvlist header\n");
grub_error (GRUB_ERR_BAD_FS, "incorrect nvlist");
return 0;
}
/*
* Loop thru the nvpair list
* The XDR representation of an integer is in big-endian byte order.
*/
while ((nvpair=nvlist_next_nvpair(nvlist,nvpair)))
{
nvpair_name(nvpair,&nvp_name, &nvp_name_len);
type = nvpair_type(nvpair);
if (type == valtype
&& (nvp_name_len == name_len
|| (nvp_name_len > name_len && nvp_name[name_len] == '\0'))
&& grub_memcmp (nvp_name, name, name_len) == 0)
{
return nvpair_value(nvpair,val,size_out,nelm_out);
}
}
return 0;
}
int
2010-12-06 01:31:22 +00:00
grub_zfs_nvlist_lookup_uint64 (const char *nvlist, const char *name,
grub_uint64_t * out)
{
char *nvpair;
grub_size_t size;
int found;
found = nvlist_find_value (nvlist, name, DATA_TYPE_UINT64, &nvpair, &size, 0);
if (!found)
return 0;
if (size < sizeof (grub_uint64_t))
{
grub_error (GRUB_ERR_BAD_FS, "invalid uint64");
return 0;
}
*out = grub_be_to_cpu64 (grub_get_unaligned64 (nvpair));
return 1;
}
char *
2010-12-06 01:31:22 +00:00
grub_zfs_nvlist_lookup_string (const char *nvlist, const char *name)
{
char *nvpair;
char *ret;
grub_size_t slen;
grub_size_t size;
int found;
found = nvlist_find_value (nvlist, name, DATA_TYPE_STRING, &nvpair, &size, 0);
if (!found)
return 0;
if (size < 4)
{
grub_error (GRUB_ERR_BAD_FS, "invalid string");
return 0;
}
slen = grub_be_to_cpu32 (grub_get_unaligned32 (nvpair));
if (slen > size - 4)
slen = size - 4;
ret = grub_malloc (slen + 1);
if (!ret)
return 0;
grub_memcpy (ret, nvpair + 4, slen);
ret[slen] = 0;
return ret;
}
char *
2010-12-06 01:31:22 +00:00
grub_zfs_nvlist_lookup_nvlist (const char *nvlist, const char *name)
{
char *nvpair;
char *ret;
grub_size_t size, sz;
int found;
found = nvlist_find_value (nvlist, name, DATA_TYPE_NVLIST, &nvpair,
&size, 0);
if (!found)
return 0;
if (grub_add (size, 3 * sizeof (grub_uint32_t), &sz))
return 0;
ret = grub_zalloc (sz);
if (!ret)
return 0;
grub_memcpy (ret, nvlist, sizeof (grub_uint32_t));
grub_memcpy (ret + sizeof (grub_uint32_t), nvpair, size);
return ret;
}
int
2010-12-06 01:31:22 +00:00
grub_zfs_nvlist_lookup_nvlist_array_get_nelm (const char *nvlist,
const char *name)
{
char *nvpair;
grub_size_t nelm, size;
int found;
2010-12-05 17:13:32 +00:00
found = nvlist_find_value (nvlist, name, DATA_TYPE_NVLIST_ARRAY, &nvpair,
&size, &nelm);
if (! found)
return -1;
return nelm;
}
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static int
2010-12-06 01:31:22 +00:00
get_nvlist_size (const char *beg, const char *limit)
2010-12-05 17:13:32 +00:00
{
2010-12-06 01:31:22 +00:00
const char *ptr;
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grub_uint32_t encode_size;
ptr = beg + 8;
2010-12-05 17:13:32 +00:00
while (ptr < limit
&& (encode_size = grub_be_to_cpu32 (grub_get_unaligned32 (ptr))))
2010-12-05 17:13:32 +00:00
ptr += encode_size; /* goto the next nvpair */
ptr += 8;
return (ptr > limit) ? -1 : (ptr - beg);
}
char *
2010-12-06 01:31:22 +00:00
grub_zfs_nvlist_lookup_nvlist_array (const char *nvlist, const char *name,
grub_size_t index)
{
char *nvpair, *nvpairptr;
int found;
char *ret;
grub_size_t size;
unsigned i;
grub_size_t nelm;
2010-12-05 17:13:32 +00:00
int elemsize = 0;
2010-12-05 17:13:32 +00:00
found = nvlist_find_value (nvlist, name, DATA_TYPE_NVLIST_ARRAY, &nvpair,
&size, &nelm);
if (!found)
return 0;
if (index >= nelm)
{
grub_error (GRUB_ERR_OUT_OF_RANGE, "trying to lookup past nvlist array");
return 0;
}
nvpairptr = nvpair;
for (i = 0; i < index; i++)
{
2010-12-05 17:13:32 +00:00
int r;
r = get_nvlist_size (nvpairptr, nvpair + size);
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if (r < 0)
{
grub_error (GRUB_ERR_BAD_FS, "incorrect nvlist array");
return NULL;
}
nvpairptr += r;
}
2010-12-05 17:13:32 +00:00
elemsize = get_nvlist_size (nvpairptr, nvpair + size);
if (elemsize < 0)
{
grub_error (GRUB_ERR_BAD_FS, "incorrect nvlist array");
return 0;
}
2010-12-05 17:13:32 +00:00
ret = grub_zalloc (elemsize + sizeof (grub_uint32_t));
if (!ret)
return 0;
grub_memcpy (ret, nvlist, sizeof (grub_uint32_t));
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grub_memcpy (ret + sizeof (grub_uint32_t), nvpairptr, elemsize);
return ret;
}
2010-12-06 01:31:22 +00:00
static void
unmount_device (struct grub_zfs_device_desc *desc)
{
unsigned i;
switch (desc->type)
{
case DEVICE_LEAF:
if (!desc->original && desc->dev)
grub_device_close (desc->dev);
return;
case DEVICE_RAIDZ:
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case DEVICE_MIRROR:
for (i = 0; i < desc->n_children; i++)
unmount_device (&desc->children[i]);
grub_free (desc->children);
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return;
}
}
static void
zfs_unmount (struct grub_zfs_data *data)
{
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unsigned i;
for (i = 0; i < data->n_devices_attached; i++)
unmount_device (&data->devices_attached[i]);
grub_free (data->devices_attached);
grub_free (data->dnode_buf);
grub_free (data->dnode_mdn);
grub_free (data->file_buf);
for (i = 0; i < data->subvol.nkeys; i++)
grub_crypto_cipher_close (data->subvol.keyring[i].cipher);
grub_free (data->subvol.keyring);
grub_free (data);
}
/*
* zfs_mount() locates a valid uberblock of the root pool and read in its MOS
* to the memory address MOS.
*
*/
static struct grub_zfs_data *
zfs_mount (grub_device_t dev)
{
struct grub_zfs_data *data = 0;
grub_err_t err;
void *osp = 0;
grub_size_t ospsize;
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grub_zfs_endian_t ub_endian = GRUB_ZFS_UNKNOWN_ENDIAN;
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uberblock_t *ub;
int inserted;
if (! dev->disk)
{
grub_error (GRUB_ERR_BAD_DEVICE, "not a disk");
return 0;
}
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data = grub_zalloc (sizeof (*data));
if (!data)
return 0;
#if 0
/* if it's our first time here, zero the best uberblock out */
if (data->best_drive == 0 && data->best_part == 0 && find_best_root)
grub_memset (&current_uberblock, 0, sizeof (uberblock_t));
#endif
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data->n_devices_allocated = 16;
data->devices_attached = grub_malloc (sizeof (data->devices_attached[0])
* data->n_devices_allocated);
data->n_devices_attached = 0;
err = scan_disk (dev, data, 1, &inserted);
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if (err)
{
zfs_unmount (data);
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return NULL;
}
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ub = &(data->current_uberblock);
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ub_endian = (grub_zfs_to_cpu64 (ub->ub_magic,
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GRUB_ZFS_LITTLE_ENDIAN) == UBERBLOCK_MAGIC
? GRUB_ZFS_LITTLE_ENDIAN : GRUB_ZFS_BIG_ENDIAN);
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err = zio_read (&ub->ub_rootbp, ub_endian,
&osp, &ospsize, data);
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if (err)
{
zfs_unmount (data);
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return NULL;
}
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if (ospsize < OBJSET_PHYS_SIZE_V14)
{
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grub_error (GRUB_ERR_BAD_FS, "OSP too small");
grub_free (osp);
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zfs_unmount (data);
return NULL;
}
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if (ub->ub_version >= SPA_VERSION_FEATURES &&
check_mos_features(&((objset_phys_t *) osp)->os_meta_dnode,ub_endian,
data) != 0)
{
grub_error (GRUB_ERR_BAD_FS, "Unsupported features in pool");
grub_free (osp);
zfs_unmount (data);
return NULL;
}
2010-12-05 20:17:24 +00:00
/* Got the MOS. Save it at the memory addr MOS. */
grub_memmove (&(data->mos.dn), &((objset_phys_t *) osp)->os_meta_dnode,
DNODE_SIZE);
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data->mos.endian = (grub_zfs_to_cpu64 (ub->ub_rootbp.blk_prop,
ub_endian) >> 63) & 1;
grub_free (osp);
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return data;
}
grub_err_t
grub_zfs_fetch_nvlist (grub_device_t dev, char **nvlist)
{
struct grub_zfs_data *zfs;
grub_err_t err;
zfs = zfs_mount (dev);
if (!zfs)
return grub_errno;
err = zfs_fetch_nvlist (zfs->device_original, nvlist);
zfs_unmount (zfs);
return err;
}
static grub_err_t
zfs_label (grub_device_t device, char **label)
{
char *nvlist;
grub_err_t err;
struct grub_zfs_data *data;
data = zfs_mount (device);
if (! data)
return grub_errno;
err = zfs_fetch_nvlist (data->device_original, &nvlist);
if (err)
{
zfs_unmount (data);
return err;
}
*label = grub_zfs_nvlist_lookup_string (nvlist, ZPOOL_CONFIG_POOL_NAME);
grub_free (nvlist);
zfs_unmount (data);
return grub_errno;
}
static grub_err_t
zfs_uuid (grub_device_t device, char **uuid)
{
struct grub_zfs_data *data;
*uuid = 0;
data = zfs_mount (device);
if (! data)
return grub_errno;
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*uuid = grub_xasprintf ("%016llx", (long long unsigned) data->guid);
zfs_unmount (data);
if (! *uuid)
return grub_errno;
return GRUB_ERR_NONE;
}
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static grub_err_t
zfs_mtime (grub_device_t device, grub_int32_t *mt)
{
struct grub_zfs_data *data;
2011-11-06 14:18:25 +00:00
grub_zfs_endian_t ub_endian = GRUB_ZFS_UNKNOWN_ENDIAN;
2010-12-11 14:01:33 +00:00
uberblock_t *ub;
*mt = 0;
data = zfs_mount (device);
if (! data)
return grub_errno;
ub = &(data->current_uberblock);
ub_endian = (grub_zfs_to_cpu64 (ub->ub_magic,
2011-11-06 14:18:25 +00:00
GRUB_ZFS_LITTLE_ENDIAN) == UBERBLOCK_MAGIC
? GRUB_ZFS_LITTLE_ENDIAN : GRUB_ZFS_BIG_ENDIAN);
2010-12-11 14:01:33 +00:00
*mt = grub_zfs_to_cpu64 (ub->ub_timestamp, ub_endian);
zfs_unmount (data);
return GRUB_ERR_NONE;
}
/*
* zfs_open() locates a file in the rootpool by following the
* MOS and places the dnode of the file in the memory address DNODE.
*/
static grub_err_t
grub_zfs_open (struct grub_file *file, const char *fsfilename)
{
struct grub_zfs_data *data;
grub_err_t err;
int isfs;
data = zfs_mount (file->device);
if (! data)
return grub_errno;
err = dnode_get_fullpath (fsfilename, &(data->subvol),
&(data->dnode), &isfs, data);
if (err)
{
zfs_unmount (data);
return err;
}
if (isfs)
{
zfs_unmount (data);
return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("missing `%c' symbol"), '@');
}
/* We found the dnode for this file. Verify if it is a plain file. */
if (data->dnode.dn.dn_type != DMU_OT_PLAIN_FILE_CONTENTS)
{
zfs_unmount (data);
return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("not a regular file"));
}
/* get the file size and set the file position to 0 */
/*
* For DMU_OT_SA we will need to locate the SIZE attribute
* attribute, which could be either in the bonus buffer
* or the "spill" block.
*/
if (data->dnode.dn.dn_bonustype == DMU_OT_SA)
{
void *sahdrp;
int hdrsize;
if (data->dnode.dn.dn_bonuslen != 0)
{
sahdrp = (sa_hdr_phys_t *) DN_BONUS (&data->dnode.dn);
}
else if (data->dnode.dn.dn_flags & DNODE_FLAG_SPILL_BLKPTR)
{
blkptr_t *bp = &data->dnode.dn.dn_spill;
err = zio_read (bp, data->dnode.endian, &sahdrp, NULL, data);
if (err)
return err;
}
else
{
return grub_error (GRUB_ERR_BAD_FS, "filesystem is corrupt");
}
hdrsize = SA_HDR_SIZE (((sa_hdr_phys_t *) sahdrp));
file->size = grub_zfs_to_cpu64 (grub_get_unaligned64 ((char *) sahdrp + hdrsize + SA_SIZE_OFFSET), data->dnode.endian);
}
2011-10-27 00:04:04 +00:00
else if (data->dnode.dn.dn_bonustype == DMU_OT_ZNODE)
{
file->size = grub_zfs_to_cpu64 (((znode_phys_t *) DN_BONUS (&data->dnode.dn))->zp_size, data->dnode.endian);
}
2011-10-27 00:04:04 +00:00
else
return grub_error (GRUB_ERR_BAD_FS, "bad bonus type");
file->data = data;
file->offset = 0;
#ifndef GRUB_UTIL
grub_dl_ref (my_mod);
#endif
return GRUB_ERR_NONE;
}
static grub_ssize_t
grub_zfs_read (grub_file_t file, char *buf, grub_size_t len)
{
struct grub_zfs_data *data = (struct grub_zfs_data *) file->data;
grub_size_t blksz, movesize;
grub_size_t length;
grub_size_t read;
grub_err_t err;
/*
* If offset is in memory, move it into the buffer provided and return.
*/
if (file->offset >= data->file_start
&& file->offset + len <= data->file_end)
{
grub_memmove (buf, data->file_buf + file->offset - data->file_start,
len);
return len;
}
blksz = grub_zfs_to_cpu16 (data->dnode.dn.dn_datablkszsec,
data->dnode.endian) << SPA_MINBLOCKSHIFT;
if (blksz == 0)
{
grub_error (GRUB_ERR_BAD_FS, "0-sized block");
return -1;
}
/*
* Entire Dnode is too big to fit into the space available. We
* will need to read it in chunks. This could be optimized to
* read in as large a chunk as there is space available, but for
* now, this only reads in one data block at a time.
*/
length = len;
read = 0;
while (length)
{
void *t;
/*
* Find requested blkid and the offset within that block.
*/
grub_uint64_t blkid = grub_divmod64 (file->offset + read, blksz, 0);
grub_free (data->file_buf);
data->file_buf = 0;
err = dmu_read (&(data->dnode), blkid, &t,
0, data);
data->file_buf = t;
if (err)
{
data->file_buf = NULL;
data->file_start = data->file_end = 0;
return -1;
}
data->file_start = blkid * blksz;
data->file_end = data->file_start + blksz;
movesize = data->file_end - file->offset - read;
if (movesize > length)
movesize = length;
grub_memmove (buf, data->file_buf + file->offset + read
- data->file_start, movesize);
buf += movesize;
length -= movesize;
read += movesize;
}
return len;
}
static grub_err_t
grub_zfs_close (grub_file_t file)
{
zfs_unmount ((struct grub_zfs_data *) file->data);
#ifndef GRUB_UTIL
grub_dl_unref (my_mod);
#endif
return GRUB_ERR_NONE;
}
grub_err_t
grub_zfs_getmdnobj (grub_device_t dev, const char *fsfilename,
grub_uint64_t *mdnobj)
{
struct grub_zfs_data *data;
grub_err_t err;
int isfs;
data = zfs_mount (dev);
if (! data)
return grub_errno;
err = dnode_get_fullpath (fsfilename, &(data->subvol),
&(data->dnode), &isfs, data);
*mdnobj = data->subvol.obj;
zfs_unmount (data);
return err;
}
static grub_err_t
fill_fs_info (struct grub_dirhook_info *info,
dnode_end_t mdn, struct grub_zfs_data *data)
{
grub_err_t err;
dnode_end_t dn;
grub_uint64_t objnum;
grub_uint64_t headobj;
grub_memset (info, 0, sizeof (*info));
info->dir = 1;
if (mdn.dn.dn_type == DMU_OT_DSL_DIR)
{
headobj = grub_zfs_to_cpu64 (((dsl_dir_phys_t *) DN_BONUS (&mdn.dn))->dd_head_dataset_obj, mdn.endian);
err = dnode_get (&(data->mos), headobj, 0, &mdn, data);
if (err)
{
grub_dprintf ("zfs", "failed here\n");
return err;
}
}
err = make_mdn (&mdn, data);
if (err)
return err;
err = dnode_get (&mdn, MASTER_NODE_OBJ, DMU_OT_MASTER_NODE,
&dn, data);
if (err)
{
grub_dprintf ("zfs", "failed here\n");
return err;
}
err = zap_lookup (&dn, ZFS_ROOT_OBJ, &objnum, data, 0);
if (err)
{
grub_dprintf ("zfs", "failed here\n");
return err;
}
err = dnode_get (&mdn, objnum, 0, &dn, data);
if (err)
{
grub_dprintf ("zfs", "failed here\n");
return err;
}
2011-10-27 00:04:04 +00:00
if (dn.dn.dn_bonustype == DMU_OT_SA)
{
void *sahdrp;
int hdrsize;
if (dn.dn.dn_bonuslen != 0)
{
sahdrp = (sa_hdr_phys_t *) DN_BONUS (&dn.dn);
}
else if (dn.dn.dn_flags & DNODE_FLAG_SPILL_BLKPTR)
{
blkptr_t *bp = &dn.dn.dn_spill;
err = zio_read (bp, dn.endian, &sahdrp, NULL, data);
if (err)
return err;
2011-10-27 00:04:04 +00:00
}
else
{
grub_error (GRUB_ERR_BAD_FS, "filesystem is corrupt");
return grub_errno;
2011-10-27 00:04:04 +00:00
}
hdrsize = SA_HDR_SIZE (((sa_hdr_phys_t *) sahdrp));
info->mtimeset = 1;
info->mtime = grub_zfs_to_cpu64 (grub_get_unaligned64 ((char *) sahdrp + hdrsize + SA_MTIME_OFFSET), dn.endian);
2011-10-27 00:04:04 +00:00
}
if (dn.dn.dn_bonustype == DMU_OT_ZNODE)
{
info->mtimeset = 1;
info->mtime = grub_zfs_to_cpu64 (((znode_phys_t *) DN_BONUS (&dn.dn))->zp_mtime[0], dn.endian);
}
return 0;
}
/* Helper for grub_zfs_dir. */
static int
iterate_zap (const char *name, grub_uint64_t val, struct grub_zfs_dir_ctx *ctx)
{
grub_err_t err;
struct grub_dirhook_info info;
dnode_end_t dn;
grub_memset (&info, 0, sizeof (info));
err = dnode_get (&(ctx->data->subvol.mdn), val, 0, &dn, ctx->data);
if (err)
{
grub_print_error ();
return 0;
}
2011-10-27 00:04:04 +00:00
if (dn.dn.dn_bonustype == DMU_OT_SA)
{
void *sahdrp;
int hdrsize;
2011-10-27 00:04:04 +00:00
if (dn.dn.dn_bonuslen != 0)
{
sahdrp = (sa_hdr_phys_t *) DN_BONUS (&ctx->data->dnode.dn);
}
else if (dn.dn.dn_flags & DNODE_FLAG_SPILL_BLKPTR)
{
blkptr_t *bp = &dn.dn.dn_spill;
2011-10-27 00:04:04 +00:00
err = zio_read (bp, dn.endian, &sahdrp, NULL, ctx->data);
if (err)
{
grub_print_error ();
return 0;
}
}
else
{
grub_error (GRUB_ERR_BAD_FS, "filesystem is corrupt");
grub_print_error ();
return 0;
}
2011-10-27 00:04:04 +00:00
hdrsize = SA_HDR_SIZE (((sa_hdr_phys_t *) sahdrp));
info.mtimeset = 1;
info.mtime = grub_zfs_to_cpu64 (grub_get_unaligned64 ((char *) sahdrp + hdrsize + SA_MTIME_OFFSET), dn.endian);
info.case_insensitive = ctx->data->subvol.case_insensitive;
}
if (dn.dn.dn_bonustype == DMU_OT_ZNODE)
{
info.mtimeset = 1;
info.mtime = grub_zfs_to_cpu64 (((znode_phys_t *) DN_BONUS (&dn.dn))->zp_mtime[0],
dn.endian);
}
info.dir = (dn.dn.dn_type == DMU_OT_DIRECTORY_CONTENTS);
grub_dprintf ("zfs", "type=%d, name=%s\n",
(int)dn.dn.dn_type, (char *)name);
return ctx->hook (name, &info, ctx->hook_data);
}
/* Helper for grub_zfs_dir. */
static int
iterate_zap_fs (const char *name, grub_uint64_t val,
struct grub_zfs_dir_ctx *ctx)
{
grub_err_t err;
struct grub_dirhook_info info;
dnode_end_t mdn;
err = dnode_get (&(ctx->data->mos), val, 0, &mdn, ctx->data);
if (err)
{
grub_errno = 0;
return 0;
}
if (mdn.dn.dn_type != DMU_OT_DSL_DIR)
return 0;
err = fill_fs_info (&info, mdn, ctx->data);
if (err)
{
grub_errno = 0;
return 0;
}
return ctx->hook (name, &info, ctx->hook_data);
}
/* Helper for grub_zfs_dir. */
static int
iterate_zap_snap (const char *name, grub_uint64_t val,
struct grub_zfs_dir_ctx *ctx)
{
grub_err_t err;
struct grub_dirhook_info info;
char *name2;
int ret;
dnode_end_t mdn;
err = dnode_get (&(ctx->data->mos), val, 0, &mdn, ctx->data);
if (err)
{
grub_errno = 0;
return 0;
}
if (mdn.dn.dn_type != DMU_OT_DSL_DATASET)
return 0;
err = fill_fs_info (&info, mdn, ctx->data);
if (err)
{
grub_errno = 0;
return 0;
}
name2 = grub_malloc (grub_strlen (name) + 2);
name2[0] = '@';
grub_memcpy (name2 + 1, name, grub_strlen (name) + 1);
ret = ctx->hook (name2, &info, ctx->hook_data);
grub_free (name2);
return ret;
}
static grub_err_t
grub_zfs_dir (grub_device_t device, const char *path,
grub_fs_dir_hook_t hook, void *hook_data)
{
struct grub_zfs_dir_ctx ctx = {
.hook = hook,
.hook_data = hook_data
};
struct grub_zfs_data *data;
grub_err_t err;
int isfs;
data = zfs_mount (device);
if (! data)
return grub_errno;
err = dnode_get_fullpath (path, &(data->subvol), &(data->dnode), &isfs, data);
if (err)
{
zfs_unmount (data);
return err;
}
ctx.data = data;
if (isfs)
{
grub_uint64_t childobj, headobj;
grub_uint64_t snapobj;
dnode_end_t dn;
struct grub_dirhook_info info;
err = fill_fs_info (&info, data->dnode, data);
if (err)
{
zfs_unmount (data);
return err;
}
if (hook ("@", &info, hook_data))
{
zfs_unmount (data);
return GRUB_ERR_NONE;
}
childobj = grub_zfs_to_cpu64 (((dsl_dir_phys_t *) DN_BONUS (&data->dnode.dn))->dd_child_dir_zapobj, data->dnode.endian);
headobj = grub_zfs_to_cpu64 (((dsl_dir_phys_t *) DN_BONUS (&data->dnode.dn))->dd_head_dataset_obj, data->dnode.endian);
err = dnode_get (&(data->mos), childobj,
DMU_OT_DSL_DIR_CHILD_MAP, &dn, data);
if (err)
{
zfs_unmount (data);
return err;
}
zap_iterate_u64 (&dn, iterate_zap_fs, data, &ctx);
err = dnode_get (&(data->mos), headobj, DMU_OT_DSL_DATASET, &dn, data);
if (err)
{
zfs_unmount (data);
return err;
}
snapobj = grub_zfs_to_cpu64 (((dsl_dataset_phys_t *) DN_BONUS (&dn.dn))->ds_snapnames_zapobj, dn.endian);
err = dnode_get (&(data->mos), snapobj,
DMU_OT_DSL_DS_SNAP_MAP, &dn, data);
if (err)
{
zfs_unmount (data);
return err;
}
zap_iterate_u64 (&dn, iterate_zap_snap, data, &ctx);
}
else
{
if (data->dnode.dn.dn_type != DMU_OT_DIRECTORY_CONTENTS)
{
zfs_unmount (data);
return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("not a directory"));
}
zap_iterate_u64 (&(data->dnode), iterate_zap, data, &ctx);
}
zfs_unmount (data);
return grub_errno;
}
static int
check_feature (const char *name, grub_uint64_t val,
struct grub_zfs_dir_ctx *ctx __attribute__((unused)))
{
int i;
if (val == 0)
return 0;
if (name[0] == 0)
return 0;
for (i = 0; spa_feature_names[i] != NULL; i++)
if (grub_strcmp (name, spa_feature_names[i]) == 0)
return 0;
return 1;
}
/*
* Checks whether the MOS features that are active are supported by this
* (GRUB's) implementation of ZFS.
*
* Return:
* 0: Success.
* errnum: Failure.
*/
static grub_err_t
check_mos_features(dnode_phys_t *mosmdn_phys,grub_zfs_endian_t endian,struct grub_zfs_data* data )
{
grub_uint64_t objnum;
grub_err_t errnum = 0;
dnode_end_t dn,mosmdn;
mzap_phys_t* mzp;
grub_zfs_endian_t endianzap;
int size;
grub_memmove(&(mosmdn.dn),mosmdn_phys,sizeof(dnode_phys_t));
mosmdn.endian=endian;
errnum = dnode_get(&mosmdn, DMU_POOL_DIRECTORY_OBJECT,
DMU_OT_OBJECT_DIRECTORY, &dn,data);
if (errnum != 0)
return errnum;
/*
* Find the object number for 'features_for_read' and retrieve its
* corresponding dnode. Note that we don't check features_for_write
* because GRUB is not opening the pool for write.
*/
errnum = zap_lookup(&dn, DMU_POOL_FEATURES_FOR_READ, &objnum, data,0);
if (errnum != 0)
return errnum;
errnum = dnode_get(&mosmdn, objnum, DMU_OTN_ZAP_METADATA, &dn, data);
if (errnum != 0)
return errnum;
errnum = dmu_read(&dn, 0, (void**)&mzp, &endianzap,data);
if (errnum != 0)
return errnum;
size = grub_zfs_to_cpu16 (dn.dn.dn_datablkszsec, dn.endian) << SPA_MINBLOCKSHIFT;
return mzap_iterate (mzp,endianzap, size, check_feature,NULL);
}
#ifdef GRUB_UTIL
static grub_err_t
grub_zfs_embed (grub_device_t device __attribute__ ((unused)),
unsigned int *nsectors,
unsigned int max_nsectors,
grub_embed_type_t embed_type,
grub_disk_addr_t **sectors)
{
unsigned i;
if (embed_type != GRUB_EMBED_PCBIOS)
return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
"ZFS currently supports only PC-BIOS embedding");
if ((VDEV_BOOT_SIZE >> GRUB_DISK_SECTOR_BITS) < *nsectors)
return grub_error (GRUB_ERR_OUT_OF_RANGE,
N_("your core.img is unusually large. "
"It won't fit in the embedding area"));
*nsectors = (VDEV_BOOT_SIZE >> GRUB_DISK_SECTOR_BITS);
if (*nsectors > max_nsectors)
*nsectors = max_nsectors;
*sectors = grub_calloc (*nsectors, sizeof (**sectors));
if (!*sectors)
return grub_errno;
for (i = 0; i < *nsectors; i++)
(*sectors)[i] = i + (VDEV_BOOT_OFFSET >> GRUB_DISK_SECTOR_BITS);
return GRUB_ERR_NONE;
}
#endif
static struct grub_fs grub_zfs_fs = {
.name = "zfs",
.fs_dir = grub_zfs_dir,
.fs_open = grub_zfs_open,
.fs_read = grub_zfs_read,
.fs_close = grub_zfs_close,
.fs_label = zfs_label,
.fs_uuid = zfs_uuid,
.fs_mtime = zfs_mtime,
#ifdef GRUB_UTIL
.fs_embed = grub_zfs_embed,
.reserved_first_sector = 1,
.blocklist_install = 0,
#endif
.next = 0
};
GRUB_MOD_INIT (zfs)
{
2010-12-05 14:35:08 +00:00
COMPILE_TIME_ASSERT (sizeof (zap_leaf_chunk_t) == ZAP_LEAF_CHUNKSIZE);
grub_fs_register (&grub_zfs_fs);
#ifndef GRUB_UTIL
my_mod = mod;
#endif
}
GRUB_MOD_FINI (zfs)
{
grub_fs_unregister (&grub_zfs_fs);
}