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partitions: add aix lvm partition support files
Add partitions/aix.h and partitions/aix.c. AIX LVM permits to make "logical volumes" which are made of multiple slices of multiple disks. The new code allows only access to the "logical volumes" which are made of one slice on the probed disk, a slice being a contiguous disk area. The code also detects "logical volumes" made of multiple slices on the probed disk, but can not describe them to the partition layer, because the partition layer generic code does not support that. When such non-contiguous "logical volumes" are detected, a diagnostic message is printed. [akpm@linux-foundation.org: coding-style fixes] Signed-off-by: Philippe De Muyter <phdm@macqel.be> Cc: Karel Zak <kzak@redhat.com> Cc: Jens Axboe <axboe@kernel.dk> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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@ -68,6 +68,17 @@ config ACORN_PARTITION_RISCIX
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of machines called RISCiX. If you say 'Y' here, Linux will be able
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to read disks partitioned under RISCiX.
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config AIX_PARTITION
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bool "AIX basic partition table support" if PARTITION_ADVANCED
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help
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Say Y here if you would like to be able to read the hard disk
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partition table format used by IBM or Motorola PowerPC machines
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running AIX. AIX actually uses a Logical Volume Manager, where
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"logical volumes" can be spread across one or multiple disks,
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but this driver works only for the simple case of partitions which
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are contiguous.
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Otherwise, say N.
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config OSF_PARTITION
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bool "Alpha OSF partition support" if PARTITION_ADVANCED
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default y if ALPHA
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@ -7,6 +7,7 @@ obj-$(CONFIG_BLOCK) := check.o
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obj-$(CONFIG_ACORN_PARTITION) += acorn.o
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obj-$(CONFIG_AMIGA_PARTITION) += amiga.o
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obj-$(CONFIG_ATARI_PARTITION) += atari.o
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obj-$(CONFIG_AIX_PARTITION) += aix.o
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obj-$(CONFIG_MAC_PARTITION) += mac.o
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obj-$(CONFIG_LDM_PARTITION) += ldm.o
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obj-$(CONFIG_MSDOS_PARTITION) += msdos.o
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@ -0,0 +1,293 @@
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/*
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* fs/partitions/aix.c
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*
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* Copyright (C) 2012-2013 Philippe De Muyter <phdm@macqel.be>
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*/
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#include "check.h"
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#include "aix.h"
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struct lvm_rec {
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char lvm_id[4]; /* "_LVM" */
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char reserved4[16];
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__be32 lvmarea_len;
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__be32 vgda_len;
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__be32 vgda_psn[2];
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char reserved36[10];
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__be16 pp_size; /* log2(pp_size) */
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char reserved46[12];
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__be16 version;
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};
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struct vgda {
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__be32 secs;
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__be32 usec;
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char reserved8[16];
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__be16 numlvs;
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__be16 maxlvs;
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__be16 pp_size;
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__be16 numpvs;
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__be16 total_vgdas;
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__be16 vgda_size;
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};
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struct lvd {
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__be16 lv_ix;
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__be16 res2;
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__be16 res4;
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__be16 maxsize;
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__be16 lv_state;
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__be16 mirror;
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__be16 mirror_policy;
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__be16 num_lps;
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__be16 res10[8];
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};
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struct lvname {
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char name[64];
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};
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struct ppe {
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__be16 lv_ix;
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unsigned short res2;
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unsigned short res4;
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__be16 lp_ix;
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unsigned short res8[12];
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};
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struct pvd {
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char reserved0[16];
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__be16 pp_count;
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char reserved18[2];
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__be32 psn_part1;
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char reserved24[8];
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struct ppe ppe[1016];
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};
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#define LVM_MAXLVS 256
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/**
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* last_lba(): return number of last logical block of device
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* @bdev: block device
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*
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* Description: Returns last LBA value on success, 0 on error.
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* This is stored (by sd and ide-geometry) in
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* the part[0] entry for this disk, and is the number of
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* physical sectors available on the disk.
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*/
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static u64 last_lba(struct block_device *bdev)
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{
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if (!bdev || !bdev->bd_inode)
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return 0;
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return (bdev->bd_inode->i_size >> 9) - 1ULL;
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}
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/**
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* read_lba(): Read bytes from disk, starting at given LBA
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* @state
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* @lba
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* @buffer
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* @count
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*
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* Description: Reads @count bytes from @state->bdev into @buffer.
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* Returns number of bytes read on success, 0 on error.
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*/
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static size_t read_lba(struct parsed_partitions *state, u64 lba, u8 *buffer,
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size_t count)
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{
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size_t totalreadcount = 0;
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if (!buffer || lba + count / 512 > last_lba(state->bdev))
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return 0;
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while (count) {
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int copied = 512;
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Sector sect;
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unsigned char *data = read_part_sector(state, lba++, §);
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if (!data)
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break;
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if (copied > count)
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copied = count;
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memcpy(buffer, data, copied);
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put_dev_sector(sect);
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buffer += copied;
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totalreadcount += copied;
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count -= copied;
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}
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return totalreadcount;
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}
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/**
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* alloc_pvd(): reads physical volume descriptor
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* @state
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* @lba
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*
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* Description: Returns pvd on success, NULL on error.
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* Allocates space for pvd and fill it with disk blocks at @lba
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* Notes: remember to free pvd when you're done!
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*/
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static struct pvd *alloc_pvd(struct parsed_partitions *state, u32 lba)
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{
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size_t count = sizeof(struct pvd);
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struct pvd *p;
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p = kmalloc(count, GFP_KERNEL);
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if (!p)
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return NULL;
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if (read_lba(state, lba, (u8 *) p, count) < count) {
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kfree(p);
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return NULL;
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}
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return p;
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}
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/**
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* alloc_lvn(): reads logical volume names
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* @state
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* @lba
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*
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* Description: Returns lvn on success, NULL on error.
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* Allocates space for lvn and fill it with disk blocks at @lba
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* Notes: remember to free lvn when you're done!
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*/
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static struct lvname *alloc_lvn(struct parsed_partitions *state, u32 lba)
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{
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size_t count = sizeof(struct lvname) * LVM_MAXLVS;
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struct lvname *p;
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p = kmalloc(count, GFP_KERNEL);
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if (!p)
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return NULL;
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if (read_lba(state, lba, (u8 *) p, count) < count) {
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kfree(p);
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return NULL;
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}
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return p;
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}
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int aix_partition(struct parsed_partitions *state)
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{
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int ret = 0;
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Sector sect;
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unsigned char *d;
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u32 pp_bytes_size;
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u32 pp_blocks_size = 0;
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u32 vgda_sector = 0;
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u32 vgda_len = 0;
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int numlvs = 0;
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struct pvd *pvd;
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struct lv_info {
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unsigned short pps_per_lv;
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unsigned short pps_found;
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unsigned char lv_is_contiguous;
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} *lvip;
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struct lvname *n = NULL;
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d = read_part_sector(state, 7, §);
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if (d) {
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struct lvm_rec *p = (struct lvm_rec *)d;
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u16 lvm_version = be16_to_cpu(p->version);
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char tmp[64];
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if (lvm_version == 1) {
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int pp_size_log2 = be16_to_cpu(p->pp_size);
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pp_bytes_size = 1 << pp_size_log2;
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pp_blocks_size = pp_bytes_size / 512;
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snprintf(tmp, sizeof(tmp),
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" AIX LVM header version %u found\n",
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lvm_version);
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vgda_len = be32_to_cpu(p->vgda_len);
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vgda_sector = be32_to_cpu(p->vgda_psn[0]);
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} else {
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snprintf(tmp, sizeof(tmp),
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" unsupported AIX LVM version %d found\n",
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lvm_version);
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}
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strlcat(state->pp_buf, tmp, PAGE_SIZE);
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put_dev_sector(sect);
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}
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if (vgda_sector && (d = read_part_sector(state, vgda_sector, §))) {
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struct vgda *p = (struct vgda *)d;
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numlvs = be16_to_cpu(p->numlvs);
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put_dev_sector(sect);
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}
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lvip = kzalloc(sizeof(struct lv_info) * state->limit, GFP_KERNEL);
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if (!lvip)
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return 0;
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if (numlvs && (d = read_part_sector(state, vgda_sector + 1, §))) {
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struct lvd *p = (struct lvd *)d;
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int i;
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n = alloc_lvn(state, vgda_sector + vgda_len - 33);
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if (n) {
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int foundlvs = 0;
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for (i = 0; foundlvs < numlvs && i < state->limit; i += 1) {
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lvip[i].pps_per_lv = be16_to_cpu(p[i].num_lps);
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if (lvip[i].pps_per_lv)
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foundlvs += 1;
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}
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}
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put_dev_sector(sect);
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}
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pvd = alloc_pvd(state, vgda_sector + 17);
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if (pvd) {
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int numpps = be16_to_cpu(pvd->pp_count);
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int psn_part1 = be32_to_cpu(pvd->psn_part1);
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int i;
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int cur_lv_ix = -1;
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int next_lp_ix = 1;
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int lp_ix;
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for (i = 0; i < numpps; i += 1) {
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struct ppe *p = pvd->ppe + i;
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unsigned int lv_ix;
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lp_ix = be16_to_cpu(p->lp_ix);
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if (!lp_ix) {
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next_lp_ix = 1;
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continue;
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}
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lv_ix = be16_to_cpu(p->lv_ix) - 1;
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if (lv_ix > state->limit) {
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cur_lv_ix = -1;
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continue;
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}
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lvip[lv_ix].pps_found += 1;
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if (lp_ix == 1) {
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cur_lv_ix = lv_ix;
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next_lp_ix = 1;
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} else if (lv_ix != cur_lv_ix || lp_ix != next_lp_ix) {
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next_lp_ix = 1;
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continue;
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}
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if (lp_ix == lvip[lv_ix].pps_per_lv) {
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char tmp[70];
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put_partition(state, lv_ix + 1,
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(i + 1 - lp_ix) * pp_blocks_size + psn_part1,
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lvip[lv_ix].pps_per_lv * pp_blocks_size);
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snprintf(tmp, sizeof(tmp), " <%s>\n",
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n[lv_ix].name);
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strlcat(state->pp_buf, tmp, PAGE_SIZE);
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lvip[lv_ix].lv_is_contiguous = 1;
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ret = 1;
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next_lp_ix = 1;
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} else
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next_lp_ix += 1;
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}
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for (i = 0; i < state->limit; i += 1)
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if (lvip[i].pps_found && !lvip[i].lv_is_contiguous)
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pr_warn("partition %s (%u pp's found) is "
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"not contiguous\n",
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n[i].name, lvip[i].pps_found);
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kfree(pvd);
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}
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kfree(n);
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kfree(lvip);
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return ret;
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}
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@ -0,0 +1 @@
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extern int aix_partition(struct parsed_partitions *state);
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