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lvm2/libdm/libdevmapper.h

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/*
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* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004 Red Hat, Inc. All rights reserved.
*
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* This file is part of the device-mapper userspace tools.
*
* 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.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef LIB_DEVICE_MAPPER_H
#define LIB_DEVICE_MAPPER_H
#include <inttypes.h>
#include <sys/types.h>
#ifdef linux
# include <linux/types.h>
#endif
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#include <limits.h>
#include <string.h>
#include <stdlib.h>
/*
* Since it is quite laborious to build the ioctl
* arguments for the device-mapper people are
* encouraged to use this library.
*
* You will need to build a struct dm_task for
* each ioctl command you want to execute.
*/
typedef void (*dm_log_fn) (int level, const char *file, int line,
const char *f, ...);
/*
* The library user may wish to register their own
* logging function, by default errors go to stderr.
* Use dm_log_init(NULL) to restore the default log fn.
*/
void dm_log_init(dm_log_fn fn);
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void dm_log_init_verbose(int level);
enum {
DM_DEVICE_CREATE,
DM_DEVICE_RELOAD,
DM_DEVICE_REMOVE,
DM_DEVICE_REMOVE_ALL,
DM_DEVICE_SUSPEND,
DM_DEVICE_RESUME,
DM_DEVICE_INFO,
DM_DEVICE_DEPS,
DM_DEVICE_RENAME,
DM_DEVICE_VERSION,
DM_DEVICE_STATUS,
DM_DEVICE_TABLE,
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DM_DEVICE_WAITEVENT,
DM_DEVICE_LIST,
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DM_DEVICE_CLEAR,
DM_DEVICE_MKNODES,
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DM_DEVICE_LIST_VERSIONS,
DM_DEVICE_TARGET_MSG
};
struct dm_task;
struct dm_task *dm_task_create(int type);
void dm_task_destroy(struct dm_task *dmt);
int dm_task_set_name(struct dm_task *dmt, const char *name);
int dm_task_set_uuid(struct dm_task *dmt, const char *uuid);
/*
* Retrieve attributes after an info.
*/
struct dm_info {
int exists;
int suspended;
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int live_table;
int inactive_table;
int32_t open_count;
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uint32_t event_nr;
uint32_t major;
uint32_t minor; /* minor device number */
int read_only; /* 0:read-write; 1:read-only */
int32_t target_count;
};
struct dm_deps {
uint32_t count;
uint32_t filler;
uint64_t device[0];
};
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struct dm_names {
uint64_t dev;
uint32_t next; /* Offset to next struct from start of this struct */
char name[0];
};
struct dm_versions {
uint32_t next; /* Offset to next struct from start of this struct */
uint32_t version[3];
char name[0];
};
int dm_get_library_version(char *version, size_t size);
int dm_task_get_driver_version(struct dm_task *dmt, char *version, size_t size);
int dm_task_get_info(struct dm_task *dmt, struct dm_info *dmi);
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const char *dm_task_get_name(struct dm_task *dmt);
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const char *dm_task_get_uuid(struct dm_task *dmt);
struct dm_deps *dm_task_get_deps(struct dm_task *dmt);
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struct dm_names *dm_task_get_names(struct dm_task *dmt);
struct dm_versions *dm_task_get_versions(struct dm_task *dmt);
int dm_task_set_ro(struct dm_task *dmt);
int dm_task_set_newname(struct dm_task *dmt, const char *newname);
int dm_task_set_minor(struct dm_task *dmt, int minor);
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int dm_task_set_major(struct dm_task *dmt, int major);
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int dm_task_set_event_nr(struct dm_task *dmt, uint32_t event_nr);
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int dm_task_set_message(struct dm_task *dmt, const char *message);
int dm_task_set_sector(struct dm_task *dmt, uint64_t sector);
int dm_task_no_open_count(struct dm_task *dmt);
int dm_task_skip_lockfs(struct dm_task *dmt);
/*
* Use these to prepare for a create or reload.
*/
int dm_task_add_target(struct dm_task *dmt,
uint64_t start,
uint64_t size, const char *ttype, const char *params);
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/*
* Format major/minor numbers correctly for input to driver
*/
int dm_format_dev(char *buf, int bufsize, uint32_t dev_major, uint32_t dev_minor);
/* Use this to retrive target information returned from a STATUS call */
void *dm_get_next_target(struct dm_task *dmt,
void *next, uint64_t *start, uint64_t *length,
char **target_type, char **params);
/*
* Call this to actually run the ioctl.
*/
int dm_task_run(struct dm_task *dmt);
/*
* Configure the device-mapper directory
*/
int dm_set_dev_dir(const char *dir);
const char *dm_dir(void);
/*
* Determine whether a major number belongs to device-mapper or not.
*/
int dm_is_dm_major(uint32_t major);
/*
* Release library resources
*/
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void dm_lib_release(void);
void dm_lib_exit(void) __attribute((destructor));
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/***********************************************************************
* Wrappers
***********************************************************************/
/*
* Use NULL for all devices.
*/
int dm_mknodes(const char *name);
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int dm_driver_version(char *version, size_t size);
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/*****************************
* Dependency tree functions *
*****************************/
struct deptree;
struct deptree_node;
/*
* Initialise an empty dependency tree.
*
* The tree consists of a root node together with one node for each mapped
* device which has child nodes for each device referenced in its table.
*
* Every node in the tree has one or more children and one or more parents.
*
* The root node is the parent/child of every node that doesn't have other
* parents/children.
*/
struct deptree *dm_deptree_create(void);
void dm_deptree_free(struct deptree *deptree);
/*
* Add nodes to the tree for a given device and all the devices it uses.
*/
int dm_deptree_add_dev(struct deptree *deptree, uint32_t major, uint32_t minor);
/*
* Search for a node in the tree.
* Set major and minor to 0 to get the root node.
*/
struct deptree_node *dm_deptree_find_node(struct deptree *deptree,
uint32_t major,
uint32_t minor);
/*
* Use this to walk through all children of a given node.
* Set handle to NULL in first call.
* Returns NULL after the last child.
* Set inverted to use inverted tree.
*/
struct deptree_node *dm_deptree_next_child(void **handle,
struct deptree_node *parent,
uint32_t inverted);
/*
* Get properties of a node.
*/
const char *dm_deptree_node_get_name(struct deptree_node *node);
const char *dm_deptree_node_get_uuid(struct deptree_node *node);
const struct dm_info *dm_deptree_node_get_info(struct deptree_node *node);
/*
* Returns the number of children of the given node (excluding the root node).
* Set inverted for the number of parents.
*/
int dm_deptree_node_num_children(struct deptree_node *node, uint32_t inverted);
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/*
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* Deactivate a device plus all dependencies.
* Ignores devices that don't have a uuid starting with uuid_prefix.
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*/
int dm_deptree_deactivate_children(struct deptree_node *dnode,
const char *uuid_prefix,
size_t uuid_prefix_len);
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/*
* Suspend a device plus all dependencies.
* Ignores devices that don't have a uuid starting with uuid_prefix.
*/
int dm_deptree_suspend_children(struct deptree_node *dnode,
const char *uuid_prefix,
size_t uuid_prefix_len);
/*
* Is the uuid prefix present in the tree?
* Only returns 0 if every node was checked successfully.
* Returns 1 if the tree walk has to be aborted.
*/
int dm_deptree_children_use_uuid(struct deptree_node *dnode,
const char *uuid_prefix,
size_t uuid_prefix_len);
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/*****************************************************************************
* Library functions
*****************************************************************************/
void *dm_malloc_aux(size_t s, const char *file, int line);
#define dm_malloc(s) dm_malloc_aux((s), __FILE__, __LINE__)
char *dm_strdup(const char *str);
#ifdef DEBUG_MEM
void dm_free_aux(void *p);
void *dm_realloc_aux(void *p, unsigned int s, const char *file, int line);
int dm_dump_memory(void);
void dm_bounds_check(void);
# define dm_free(p) dm_free_aux(p)
# define dm_realloc(p, s) dm_realloc_aux(p, s, __FILE__, __LINE__)
#else
# define dm_free(p) free(p)
# define dm_realloc(p, s) realloc(p, s)
# define dm_dump_memory()
# define dm_bounds_check()
#endif
/******************
* pool functions
******************/
/*
* The pool allocator is useful when you are going to allocate
* lots of memory, use the memory for a bit, and then free the
* memory in one go. A surprising amount of code has this usage
* profile.
*
* You should think of the pool as an infinite, contiguous chunk
* of memory. The front of this chunk of memory contains
* allocated objects, the second half is free. dm_pool_alloc grabs
* the next 'size' bytes from the free half, in effect moving it
* into the allocated half. This operation is very efficient.
*
* dm_pool_free frees the allocated object *and* all objects
* allocated after it. It is important to note this semantic
* difference from malloc/free. This is also extremely
* efficient, since a single dm_pool_free can dispose of a large
* complex object.
*
* dm_pool_destroy frees all allocated memory.
*
* eg, If you are building a binary tree in your program, and
* know that you are only ever going to insert into your tree,
* and not delete (eg, maintaining a symbol table for a
* compiler). You can create yourself a pool, allocate the nodes
* from it, and when the tree becomes redundant call dm_pool_destroy
* (no nasty iterating through the tree to free nodes).
*
* eg, On the other hand if you wanted to repeatedly insert and
* remove objects into the tree, you would be better off
* allocating the nodes from a free list; you cannot free a
* single arbitrary node with pool.
*/
struct dm_pool;
/* constructor and destructor */
struct dm_pool *dm_pool_create(const char *name, size_t chunk_hint);
void dm_pool_destroy(struct dm_pool *p);
/* simple allocation/free routines */
void *dm_pool_alloc(struct dm_pool *p, size_t s);
void *dm_pool_alloc_aligned(struct dm_pool *p, size_t s, unsigned alignment);
void dm_pool_empty(struct dm_pool *p);
void dm_pool_free(struct dm_pool *p, void *ptr);
/*
* Object building routines:
*
* These allow you to 'grow' an object, useful for
* building strings, or filling in dynamic
* arrays.
*
* It's probably best explained with an example:
*
* char *build_string(struct dm_pool *mem)
* {
* int i;
* char buffer[16];
*
* if (!dm_pool_begin_object(mem, 128))
* return NULL;
*
* for (i = 0; i < 50; i++) {
* snprintf(buffer, sizeof(buffer), "%d, ", i);
* if (!dm_pool_grow_object(mem, buffer, strlen(buffer)))
* goto bad;
* }
*
* // add null
* if (!dm_pool_grow_object(mem, "\0", 1))
* goto bad;
*
* return dm_pool_end_object(mem);
*
* bad:
*
* dm_pool_abandon_object(mem);
* return NULL;
*}
*
* So start an object by calling dm_pool_begin_object
* with a guess at the final object size - if in
* doubt make the guess too small.
*
* Then append chunks of data to your object with
* dm_pool_grow_object. Finally get your object with
* a call to dm_pool_end_object.
*
*/
int dm_pool_begin_object(struct dm_pool *p, size_t hint);
int dm_pool_grow_object(struct dm_pool *p, const void *extra, size_t delta);
void *dm_pool_end_object(struct dm_pool *p);
void dm_pool_abandon_object(struct dm_pool *p);
/* utilities */
char *dm_pool_strdup(struct dm_pool *p, const char *str);
char *dm_pool_strndup(struct dm_pool *p, const char *str, size_t n);
void *dm_pool_zalloc(struct dm_pool *p, size_t s);
/******************
* bitset functions
******************/
typedef uint32_t *dm_bitset_t;
dm_bitset_t dm_bitset_create(struct dm_pool *mem, unsigned num_bits);
void dm_bitset_destroy(dm_bitset_t bs);
void dm_bit_union(dm_bitset_t out, dm_bitset_t in1, dm_bitset_t in2);
int dm_bit_get_first(dm_bitset_t bs);
int dm_bit_get_next(dm_bitset_t bs, int last_bit);
#define DM_BITS_PER_INT (sizeof(int) * CHAR_BIT)
#define dm_bit(bs, i) \
(bs[(i / DM_BITS_PER_INT) + 1] & (0x1 << (i & (DM_BITS_PER_INT - 1))))
#define dm_bit_set(bs, i) \
(bs[(i / DM_BITS_PER_INT) + 1] |= (0x1 << (i & (DM_BITS_PER_INT - 1))))
#define dm_bit_clear(bs, i) \
(bs[(i / DM_BITS_PER_INT) + 1] &= ~(0x1 << (i & (DM_BITS_PER_INT - 1))))
#define dm_bit_set_all(bs) \
memset(bs + 1, -1, ((*bs / DM_BITS_PER_INT) + 1) * sizeof(int))
#define dm_bit_clear_all(bs) \
memset(bs + 1, 0, ((*bs / DM_BITS_PER_INT) + 1) * sizeof(int))
#define dm_bit_copy(bs1, bs2) \
memcpy(bs1 + 1, bs2 + 1, ((*bs1 / DM_BITS_PER_INT) + 1) * sizeof(int))
/****************
* hash functions
****************/
struct dm_hash_table;
struct dm_hash_node;
typedef void (*dm_hash_iterate_fn) (void *data);
struct dm_hash_table *dm_hash_create(unsigned size_hint);
void dm_hash_destroy(struct dm_hash_table *t);
void dm_hash_wipe(struct dm_hash_table *t);
void *dm_hash_lookup(struct dm_hash_table *t, const char *key);
int dm_hash_insert(struct dm_hash_table *t, const char *key, void *data);
void dm_hash_remove(struct dm_hash_table *t, const char *key);
void *dm_hash_lookup_binary(struct dm_hash_table *t, const char *key, uint32_t len);
int dm_hash_insert_binary(struct dm_hash_table *t, const char *key, uint32_t len,
void *data);
void dm_hash_remove_binary(struct dm_hash_table *t, const char *key, uint32_t len);
unsigned dm_hash_get_num_entries(struct dm_hash_table *t);
void dm_hash_iter(struct dm_hash_table *t, dm_hash_iterate_fn f);
char *dm_hash_get_key(struct dm_hash_table *t, struct dm_hash_node *n);
void *dm_hash_get_data(struct dm_hash_table *t, struct dm_hash_node *n);
struct dm_hash_node *dm_hash_get_first(struct dm_hash_table *t);
struct dm_hash_node *dm_hash_get_next(struct dm_hash_table *t, struct dm_hash_node *n);
#define dm_hash_iterate(v, h) \
for (v = dm_hash_get_first(h); v; \
v = dm_hash_get_next(h, v))
#endif /* LIB_DEVICE_MAPPER_H */
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/*
* selinux
*/
int dm_set_selinux_context(const char *path, mode_t mode);