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lvm2/lib/device/device.h

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/*
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* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2007 Red Hat, Inc. All rights reserved.
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*
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* This file is part of LVM2.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
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*
* You should have received a copy of the GNU Lesser General Public License
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* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
#ifndef _LVM_DEVICE_H
#define _LVM_DEVICE_H
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#include "uuid.h"
#include <fcntl.h>
#define DEV_ACCESSED_W 0x00000001 /* Device written to? */
#define DEV_REGULAR 0x00000002 /* Regular file? */
#define DEV_ALLOCED 0x00000004 /* dm_malloc used */
#define DEV_OPENED_RW 0x00000008 /* Opened RW */
#define DEV_OPENED_EXCL 0x00000010 /* Opened EXCL */
#define DEV_O_DIRECT 0x00000020 /* Use O_DIRECT */
#define DEV_O_DIRECT_TESTED 0x00000040 /* DEV_O_DIRECT is reliable */
#define DEV_OPEN_FAILURE 0x00000080 /* Has last open failed? */
dev: detect mismatch between devices used and devices assumed for an LV It's possible for an LVM LV to use a device during activation which then differs from device which LVM assumes based on metadata later on. For example, such device mismatch can occur if LVM doesn't have complete view of devices during activation or if filters are misbehaving or they're incorrectly set during activation. This patch adds code that can detect this mismatch by creating VG UUID and LV UUID index while scanning devices for device cache. The VG UUID index maps VG UUID to a device list. Each device in the list has a device layered above as a holder which is an LVM LV device and for which we know the VG UUID (and similarly for LV UUID index). We can acquire VG and LV UUID by reading /sys/block/<dm_dev_name>/dm/uuid. So these indices represent the actual state of PV device use in the system by LVs and then we compare that to what LVM assumes based on metadata. For example: [0] fedora/~ # lsblk /dev/sdq /dev/sdr /dev/sds /dev/sdt NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT sdq 65:0 0 104M 0 disk |-vg-lvol0 253:2 0 200M 0 lvm `-mpath_dev1 253:3 0 104M 0 mpath sdr 65:16 0 104M 0 disk `-mpath_dev1 253:3 0 104M 0 mpath sds 65:32 0 104M 0 disk |-vg-lvol0 253:2 0 200M 0 lvm `-mpath_dev2 253:4 0 104M 0 mpath sdt 65:48 0 104M 0 disk `-mpath_dev2 253:4 0 104M 0 mpath In this case the vg-lvol0 is mapped onto sdq and sds becauset this is what was available and seen during activation. Then later on, sdr and sdt appeared and mpath devices were created out of sdq+sdr (mpath_dev1) and sds+sdt (mpath_dev2). Now, LVM assumes (correctly) that mpath_dev1 and mpath_dev2 are the PVs that should be used, not the mpath components (sdq/sdr, sds/sdt). [0] fedora/~ # pvs Found duplicate PV xSUix1GJ2SK82ACFuKzFLAQi8xMfFxnO: using /dev/mapper/mpath_dev1 not /dev/sdq Using duplicate PV /dev/mapper/mpath_dev1 from subsystem DM, replacing /dev/sdq Found duplicate PV MvHyMVabtSqr33AbkUrobq1LjP8oiTRm: using /dev/mapper/mpath_dev2 not /dev/sds Using duplicate PV /dev/mapper/mpath_dev2 from subsystem DM, ignoring /dev/sds WARNING: Device mismatch detected for vg/lvol0 which is accessing /dev/sdq, /dev/sds instead of /dev/mapper/mpath_dev1, /dev/mapper/mpath_dev2. PV VG Fmt Attr PSize PFree /dev/mapper/mpath_dev1 vg lvm2 a-- 100.00m 0 /dev/mapper/mpath_dev2 vg lvm2 a-- 100.00m 0
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#define DEV_USED_FOR_LV 0x00000100 /* Is device used for an LV */
#define DEV_ASSUMED_FOR_LV 0x00000200 /* Is device assumed for an LV */
#define DEV_NOT_O_NOATIME 0x00000400 /* Don't use O_NOATIME */
/*
* Support for external device info.
* Any new external device info source needs to be
* registered using EXT_REGISTER macro in dev-ext.c.
*/
typedef enum dev_ext_e {
DEV_EXT_NONE,
DEV_EXT_UDEV,
DEV_EXT_NUM
} dev_ext_t;
struct dev_ext {
int enabled;
dev_ext_t src;
void *handle;
};
/*
* All devices in LVM will be represented by one of these.
* pointer comparisons are valid.
*/
struct device {
struct dm_list aliases; /* struct dm_str_list */
dev_t dev;
/* private */
int fd;
int open_count;
int error_count;
int max_error_count;
int phys_block_size;
int block_size;
int read_ahead;
uint32_t flags;
unsigned size_seqno;
uint64_t size;
uint64_t end;
struct dm_list open_list;
struct dev_ext ext;
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dev: detect mismatch between devices used and devices assumed for an LV It's possible for an LVM LV to use a device during activation which then differs from device which LVM assumes based on metadata later on. For example, such device mismatch can occur if LVM doesn't have complete view of devices during activation or if filters are misbehaving or they're incorrectly set during activation. This patch adds code that can detect this mismatch by creating VG UUID and LV UUID index while scanning devices for device cache. The VG UUID index maps VG UUID to a device list. Each device in the list has a device layered above as a holder which is an LVM LV device and for which we know the VG UUID (and similarly for LV UUID index). We can acquire VG and LV UUID by reading /sys/block/<dm_dev_name>/dm/uuid. So these indices represent the actual state of PV device use in the system by LVs and then we compare that to what LVM assumes based on metadata. For example: [0] fedora/~ # lsblk /dev/sdq /dev/sdr /dev/sds /dev/sdt NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT sdq 65:0 0 104M 0 disk |-vg-lvol0 253:2 0 200M 0 lvm `-mpath_dev1 253:3 0 104M 0 mpath sdr 65:16 0 104M 0 disk `-mpath_dev1 253:3 0 104M 0 mpath sds 65:32 0 104M 0 disk |-vg-lvol0 253:2 0 200M 0 lvm `-mpath_dev2 253:4 0 104M 0 mpath sdt 65:48 0 104M 0 disk `-mpath_dev2 253:4 0 104M 0 mpath In this case the vg-lvol0 is mapped onto sdq and sds becauset this is what was available and seen during activation. Then later on, sdr and sdt appeared and mpath devices were created out of sdq+sdr (mpath_dev1) and sds+sdt (mpath_dev2). Now, LVM assumes (correctly) that mpath_dev1 and mpath_dev2 are the PVs that should be used, not the mpath components (sdq/sdr, sds/sdt). [0] fedora/~ # pvs Found duplicate PV xSUix1GJ2SK82ACFuKzFLAQi8xMfFxnO: using /dev/mapper/mpath_dev1 not /dev/sdq Using duplicate PV /dev/mapper/mpath_dev1 from subsystem DM, replacing /dev/sdq Found duplicate PV MvHyMVabtSqr33AbkUrobq1LjP8oiTRm: using /dev/mapper/mpath_dev2 not /dev/sds Using duplicate PV /dev/mapper/mpath_dev2 from subsystem DM, ignoring /dev/sds WARNING: Device mismatch detected for vg/lvol0 which is accessing /dev/sdq, /dev/sds instead of /dev/mapper/mpath_dev1, /dev/mapper/mpath_dev2. PV VG Fmt Attr PSize PFree /dev/mapper/mpath_dev1 vg lvm2 a-- 100.00m 0 /dev/mapper/mpath_dev2 vg lvm2 a-- 100.00m 0
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const char *vgid; /* if device is an LV */
const char *lvid; /* if device is an LV */
char pvid[ID_LEN + 1]; /* if device is a PV */
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char _padding[7];
};
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/*
* All I/O is annotated with the reason it is performed.
*/
typedef enum dev_io_reason {
DEV_IO_SIGNATURES = 0, /* Scanning device signatures */
DEV_IO_LABEL, /* LVM PV disk label */
DEV_IO_MDA_HEADER, /* Text format metadata area header */
DEV_IO_MDA_CONTENT, /* Text format metadata area content */
DEV_IO_MDA_EXTRA_HEADER, /* Header of any extra metadata areas on device */
DEV_IO_MDA_EXTRA_CONTENT, /* Content of any extra metadata areas on device */
DEV_IO_FMT1, /* Original LVM1 metadata format */
DEV_IO_POOL, /* Pool metadata format */
DEV_IO_LV, /* Content written to an LV */
DEV_IO_LOG /* Logging messages */
} dev_io_reason_t;
struct device_list {
struct dm_list list;
struct device *dev;
};
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struct device_area {
struct device *dev;
uint64_t start; /* Bytes */
uint64_t size; /* Bytes */
};
/*
* Support for external device info.
*/
const char *dev_ext_name(struct device *dev);
int dev_ext_enable(struct device *dev, dev_ext_t src);
int dev_ext_disable(struct device *dev);
struct dev_ext *dev_ext_get(struct device *dev);
int dev_ext_release(struct device *dev);
/*
* Increment current dev_size_seqno.
* This is used to control lifetime
* of cached device size.
*/
void dev_size_seqno_inc(void);
/*
* All io should use these routines.
*/
int dev_get_block_size(struct device *dev, unsigned int *phys_block_size, unsigned int *block_size);
int dev_get_size(struct device *dev, uint64_t *size);
int dev_get_read_ahead(struct device *dev, uint32_t *read_ahead);
int dev_discard_blocks(struct device *dev, uint64_t offset_bytes, uint64_t size_bytes);
/* Use quiet version if device number could change e.g. when opening LV */
int dev_open(struct device *dev);
int dev_open_quiet(struct device *dev);
int dev_open_flags(struct device *dev, int flags, int direct, int quiet);
int dev_open_readonly(struct device *dev);
int dev_open_readonly_buffered(struct device *dev);
int dev_open_readonly_quiet(struct device *dev);
int dev_close(struct device *dev);
int dev_close_immediate(struct device *dev);
void dev_close_all(void);
int dev_test_excl(struct device *dev);
int dev_fd(struct device *dev);
const char *dev_name(const struct device *dev);
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int dev_read(struct device *dev, uint64_t offset, size_t len, dev_io_reason_t reason, void *buffer);
int dev_read_circular(struct device *dev, uint64_t offset, size_t len,
uint64_t offset2, size_t len2, dev_io_reason_t reason, char *buf);
int dev_write(struct device *dev, uint64_t offset, size_t len, dev_io_reason_t reason, void *buffer);
int dev_append(struct device *dev, size_t len, dev_io_reason_t reason, char *buffer);
int dev_set(struct device *dev, uint64_t offset, size_t len, dev_io_reason_t reason, int value);
void dev_flush(struct device *dev);
struct device *dev_create_file(const char *filename, struct device *dev,
struct dm_str_list *alias, int use_malloc);
void dev_destroy_file(struct device *dev);
/* Return a valid device name from the alias list; NULL otherwise */
const char *dev_name_confirmed(struct device *dev, int quiet);
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#endif