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|
#ifndef CCAN_TDB2_H
#define CCAN_TDB2_H
/*
TDB version 2: trivial database library
Copyright (C) Andrew Tridgell 1999-2004
Copyright (C) Rusty Russell 2010-2011
** NOTE! The following LGPL license applies to the tdb
** library. This does NOT imply that all of Samba is released
** under the LGPL
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3 of the License, or (at your option) any later version.
This library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#ifdef __cplusplus
extern "C" {
#endif
#ifdef HAVE_LIBREPLACE
#include <replace.h>
#else
#if HAVE_FILE_OFFSET_BITS
#define _FILE_OFFSET_BITS 64
#endif
/* For mode_t */
#include <sys/types.h>
/* For O_* flags. */
#include <sys/stat.h>
/* For sig_atomic_t. */
#include <signal.h>
/* For uint64_t */
#include <stdint.h>
/* For bool */
#include <stdbool.h>
/* For memcmp */
#include <string.h>
#endif
#if HAVE_CCAN
#include <ccan/compiler/compiler.h>
#include <ccan/typesafe_cb/typesafe_cb.h>
#include <ccan/cast/cast.h>
#else
#ifndef typesafe_cb_preargs
/* Failing to have CCAN just mean less typesafe protection, etc. */
#define typesafe_cb_preargs(rtype, atype, fn, arg, ...) \
((rtype (*)(__VA_ARGS__, atype))(fn))
#endif
#ifndef cast_const
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
#define cast_const(type, expr) ((type)((intptr_t)(expr)))
#else
#define cast_const(type, expr) ((type *)(expr))
#endif
#endif
#endif /* !HAVE_CCAN */
union tdb_attribute;
struct tdb_context;
/**
* tdb_open - open a database file
* @name: the file name (can be NULL if flags contains TDB_INTERNAL)
* @tdb_flags: options for this database
* @open_flags: flags argument for tdb's open() call.
* @mode: mode argument for tdb's open() call.
* @attributes: linked list of extra attributes for this tdb.
*
* This call opens (and potentially creates) a database file.
* Multiple processes can have the TDB file open at once.
*
* On failure it will return NULL, and set errno: it may also call
* any log attribute found in @attributes.
*
* See also:
* union tdb_attribute
*/
struct tdb_context *tdb_open(const char *name, int tdb_flags,
int open_flags, mode_t mode,
union tdb_attribute *attributes);
/* flags for tdb_open() */
#define TDB_DEFAULT 0 /* just a readability place holder */
#define TDB_INTERNAL 2 /* don't store on disk */
#define TDB_NOLOCK 4 /* don't do any locking */
#define TDB_NOMMAP 8 /* don't use mmap */
#define TDB_CONVERT 16 /* convert endian */
#define TDB_NOSYNC 64 /* don't use synchronous transactions */
#define TDB_SEQNUM 128 /* maintain a sequence number */
#define TDB_ALLOW_NESTING 256 /* fake nested transactions */
#define TDB_RDONLY 512 /* implied by O_RDONLY */
#define TDB_VERSION1 1024 /* create/open an old style TDB */
#define TDB_CANT_CHECK 2048 /* has a feature which we don't understand */
/**
* tdb1_incompatible_hash - better (Jenkins) hash for tdb1
*
* This is better than the default hash for tdb1; but older versions of the
* tdb library (prior to version 1.2.6) won't be able to open them.
*
* It only makes sense to specify this (using tdb_attribute_hash) when
* creating (with O_CREAT) an old tdb version using TDB_VERSION1. It's
* equivalent to the TDB_INCOMPATIBLE_HASH flag for tdb1.
*/
uint64_t tdb1_incompatible_hash(const void *, size_t, uint64_t, void *);
/**
* tdb_close - close and free a tdb.
* @tdb: the tdb context returned from tdb_open()
*
* This always succeeds, in that @tdb is unusable after this call. But if
* some unexpected error occurred while closing, it will return non-zero
* (the only clue as to cause will be via the log attribute).
*/
int tdb_close(struct tdb_context *tdb);
/**
* struct tdb_data - representation of keys or values.
* @dptr: the data pointer
* @dsize: the size of the data pointed to by dptr.
*
* This is the "blob" representation of keys and data used by TDB.
*/
typedef struct tdb_data {
unsigned char *dptr;
size_t dsize;
} TDB_DATA;
/**
* enum TDB_ERROR - error returns for TDB
*
* See Also:
* tdb_errorstr()
*/
enum TDB_ERROR {
TDB_SUCCESS = 0, /* No error. */
TDB_ERR_CORRUPT = -1, /* We read the db, and it was bogus. */
TDB_ERR_IO = -2, /* We couldn't read/write the db. */
TDB_ERR_LOCK = -3, /* Locking failed. */
TDB_ERR_OOM = -4, /* Out of Memory. */
TDB_ERR_EXISTS = -5, /* The key already exists. */
TDB_ERR_NOEXIST = -6, /* The key does not exist. */
TDB_ERR_EINVAL = -7, /* You're using it wrong. */
TDB_ERR_RDONLY = -8, /* The database is read-only. */
TDB_ERR_LAST = TDB_ERR_RDONLY
};
/**
* tdb_store - store a key/value pair in a tdb.
* @tdb: the tdb context returned from tdb_open()
* @key: the key
* @dbuf: the data to associate with the key.
* @flag: TDB_REPLACE, TDB_INSERT or TDB_MODIFY.
*
* This inserts (or overwrites) a key/value pair in the TDB. If flag
* is TDB_REPLACE, it doesn't matter whether the key exists or not;
* TDB_INSERT means it must not exist (returns TDB_ERR_EXISTS otherwise),
* and TDB_MODIFY means it must exist (returns TDB_ERR_NOEXIST otherwise).
*
* On success, this returns TDB_SUCCESS.
*
* See also:
* tdb_fetch, tdb_transaction_start, tdb_append, tdb_delete.
*/
enum TDB_ERROR tdb_store(struct tdb_context *tdb,
struct tdb_data key,
struct tdb_data dbuf,
int flag);
/* flags to tdb_store() */
#define TDB_REPLACE 1 /* A readability place holder */
#define TDB_INSERT 2 /* Don't overwrite an existing entry */
#define TDB_MODIFY 3 /* Don't create an existing entry */
/**
* tdb_fetch - fetch a value from a tdb.
* @tdb: the tdb context returned from tdb_open()
* @key: the key
* @data: pointer to data.
*
* This looks up a key in the database and sets it in @data.
*
* If it returns TDB_SUCCESS, the key was found: it is your
* responsibility to call free() on @data->dptr.
*
* Otherwise, it returns an error (usually, TDB_ERR_NOEXIST) and @data is
* undefined.
*/
enum TDB_ERROR tdb_fetch(struct tdb_context *tdb, struct tdb_data key,
struct tdb_data *data);
/**
* tdb_errorstr - map the tdb error onto a constant readable string
* @ecode: the enum TDB_ERROR to map.
*
* This is useful for displaying errors to users.
*/
const char *tdb_errorstr(enum TDB_ERROR ecode);
/**
* tdb_append - append a value to a key/value pair in a tdb.
* @tdb: the tdb context returned from tdb_open()
* @key: the key
* @dbuf: the data to append.
*
* This is equivalent to fetching a record, reallocating .dptr to add the
* data, and writing it back, only it's much more efficient. If the key
* doesn't exist, it's equivalent to tdb_store (with an additional hint that
* you expect to expand the record in future).
*
* See Also:
* tdb_fetch(), tdb_store()
*/
enum TDB_ERROR tdb_append(struct tdb_context *tdb,
struct tdb_data key, struct tdb_data dbuf);
/**
* tdb_delete - delete a key from a tdb.
* @tdb: the tdb context returned from tdb_open()
* @key: the key to delete.
*
* Returns TDB_SUCCESS on success, or an error (usually TDB_ERR_NOEXIST).
*
* See Also:
* tdb_fetch(), tdb_store()
*/
enum TDB_ERROR tdb_delete(struct tdb_context *tdb, struct tdb_data key);
/**
* tdb_exists - does a key exist in the database?
* @tdb: the tdb context returned from tdb_open()
* @key: the key to search for.
*
* Returns true if it exists, or false if it doesn't or any other error.
*/
bool tdb_exists(struct tdb_context *tdb, TDB_DATA key);
/**
* tdb_deq - are struct tdb_data equal?
* @a: one struct tdb_data
* @b: another struct tdb_data
*/
static inline bool tdb_deq(struct tdb_data a, struct tdb_data b)
{
return a.dsize == b.dsize && memcmp(a.dptr, b.dptr, a.dsize) == 0;
}
/**
* tdb_mkdata - make a struct tdb_data from const data
* @p: the constant pointer
* @len: the length
*
* As the dptr member of struct tdb_data is not constant, you need to
* cast it. This function keeps thost casts in one place, as well as
* suppressing the warning some compilers give when casting away a
* qualifier (eg. gcc with -Wcast-qual)
*/
static inline struct tdb_data tdb_mkdata(const void *p, size_t len)
{
struct tdb_data d;
d.dptr = cast_const(void *, p);
d.dsize = len;
return d;
}
/**
* tdb_transaction_start - start a transaction
* @tdb: the tdb context returned from tdb_open()
*
* This begins a series of atomic operations. Other processes will be able
* to read the tdb, but not alter it (they will block), nor will they see
* any changes until tdb_transaction_commit() is called.
*
* Note that if the TDB_ALLOW_NESTING flag is set, a tdb_transaction_start()
* within a transaction will succeed, but it's not a real transaction:
* (1) An inner transaction which is committed is not actually committed until
* the outer transaction is; if the outer transaction is cancelled, the
* inner ones are discarded.
* (2) tdb_transaction_cancel() marks the outer transaction as having an error,
* so the final tdb_transaction_commit() will fail.
* (3) the outer transaction will see the results of the inner transaction.
*
* See Also:
* tdb_transaction_cancel, tdb_transaction_commit.
*/
enum TDB_ERROR tdb_transaction_start(struct tdb_context *tdb);
/**
* tdb_transaction_cancel - abandon a transaction
* @tdb: the tdb context returned from tdb_open()
*
* This aborts a transaction, discarding any changes which were made.
* tdb_close() does this implicitly.
*/
void tdb_transaction_cancel(struct tdb_context *tdb);
/**
* tdb_transaction_commit - commit a transaction
* @tdb: the tdb context returned from tdb_open()
*
* This completes a transaction, writing any changes which were made.
*
* fsync() is used to commit the transaction (unless TDB_NOSYNC is set),
* making it robust against machine crashes, but very slow compared to
* other TDB operations.
*
* A failure can only be caused by unexpected errors (eg. I/O or
* memory); this is no point looping on transaction failure.
*
* See Also:
* tdb_transaction_prepare_commit()
*/
enum TDB_ERROR tdb_transaction_commit(struct tdb_context *tdb);
/**
* tdb_transaction_prepare_commit - prepare to commit a transaction
* @tdb: the tdb context returned from tdb_open()
*
* This ensures we have the resources to commit a transaction (using
* tdb_transaction_commit): if this succeeds then a transaction will only
* fail if the write() or fsync() calls fail.
*
* If this fails you must still call tdb_transaction_cancel() to cancel
* the transaction.
*
* See Also:
* tdb_transaction_commit()
*/
enum TDB_ERROR tdb_transaction_prepare_commit(struct tdb_context *tdb);
/**
* tdb_traverse - traverse a TDB
* @tdb: the tdb context returned from tdb_open()
* @fn: the function to call for every key/value pair (or NULL)
* @p: the pointer to hand to @f
*
* This walks the TDB until all they keys have been traversed, or @fn
* returns non-zero. If the traverse function or other processes are
* changing data or adding or deleting keys, the traverse may be
* unreliable: keys may be skipped or (rarely) visited twice.
*
* There is one specific exception: the special case of deleting the
* current key does not undermine the reliability of the traversal.
*
* On success, returns the number of keys iterated. On error returns
* a negative enum TDB_ERROR value.
*/
#define tdb_traverse(tdb, fn, p) \
tdb_traverse_(tdb, typesafe_cb_preargs(int, void *, (fn), (p), \
struct tdb_context *, \
TDB_DATA, TDB_DATA), (p))
int64_t tdb_traverse_(struct tdb_context *tdb,
int (*fn)(struct tdb_context *,
TDB_DATA, TDB_DATA, void *), void *p);
/**
* tdb_parse_record - operate directly on data in the database.
* @tdb: the tdb context returned from tdb_open()
* @key: the key whose record we should hand to @parse
* @parse: the function to call for the data
* @data: the private pointer to hand to @parse (types must match).
*
* This avoids a copy for many cases, by handing you a pointer into
* the memory-mapped database. It also locks the record to prevent
* other accesses at the same time.
*
* Do not alter the data handed to parse()!
*/
#define tdb_parse_record(tdb, key, parse, data) \
tdb_parse_record_((tdb), (key), \
typesafe_cb_preargs(enum TDB_ERROR, void *, \
(parse), (data), \
TDB_DATA, TDB_DATA), (data))
enum TDB_ERROR tdb_parse_record_(struct tdb_context *tdb,
TDB_DATA key,
enum TDB_ERROR (*parse)(TDB_DATA k,
TDB_DATA d,
void *data),
void *data);
/**
* tdb_get_seqnum - get a database sequence number
* @tdb: the tdb context returned from tdb_open()
*
* This returns a sequence number: any change to the database from a
* tdb context opened with the TDB_SEQNUM flag will cause that number
* to increment. Note that the incrementing is unreliable (it is done
* without locking), so this is only useful as an optimization.
*
* For example, you may have a regular database backup routine which
* does not operate if the sequence number is unchanged. In the
* unlikely event of a failed increment, it will be backed up next
* time any way.
*
* Returns an enum TDB_ERROR (ie. negative) on error.
*/
int64_t tdb_get_seqnum(struct tdb_context *tdb);
/**
* tdb_firstkey - get the "first" key in a TDB
* @tdb: the tdb context returned from tdb_open()
* @key: pointer to key.
*
* This returns an arbitrary key in the database; with tdb_nextkey() it allows
* open-coded traversal of the database, though it is slightly less efficient
* than tdb_traverse.
*
* It is your responsibility to free @key->dptr on success.
*
* Returns TDB_ERR_NOEXIST if the database is empty.
*/
enum TDB_ERROR tdb_firstkey(struct tdb_context *tdb, struct tdb_data *key);
/**
* tdb_nextkey - get the "next" key in a TDB
* @tdb: the tdb context returned from tdb_open()
* @key: a key returned by tdb_firstkey() or tdb_nextkey().
*
* This returns another key in the database; it will free @key.dptr for
* your convenience.
*
* Returns TDB_ERR_NOEXIST if there are no more keys.
*/
enum TDB_ERROR tdb_nextkey(struct tdb_context *tdb, struct tdb_data *key);
/**
* tdb_chainlock - lock a record in the TDB
* @tdb: the tdb context returned from tdb_open()
* @key: the key to lock.
*
* This prevents any access occurring to a group of keys including @key,
* even if @key does not exist. This allows primitive atomic updates of
* records without using transactions.
*
* You cannot begin a transaction while holding a tdb_chainlock(), nor can
* you do any operations on any other keys in the database. This also means
* that you cannot hold more than one tdb_chainlock() at a time.
*
* See Also:
* tdb_chainunlock()
*/
enum TDB_ERROR tdb_chainlock(struct tdb_context *tdb, TDB_DATA key);
/**
* tdb_chainunlock - unlock a record in the TDB
* @tdb: the tdb context returned from tdb_open()
* @key: the key to unlock.
*
* The key must have previously been locked by tdb_chainlock().
*/
void tdb_chainunlock(struct tdb_context *tdb, TDB_DATA key);
/**
* tdb_chainlock_read - lock a record in the TDB, for reading
* @tdb: the tdb context returned from tdb_open()
* @key: the key to lock.
*
* This prevents any changes from occurring to a group of keys including @key,
* even if @key does not exist. This allows primitive atomic updates of
* records without using transactions.
*
* You cannot begin a transaction while holding a tdb_chainlock_read(), nor can
* you do any operations on any other keys in the database. This also means
* that you cannot hold more than one tdb_chainlock()/read() at a time.
*
* See Also:
* tdb_chainlock()
*/
enum TDB_ERROR tdb_chainlock_read(struct tdb_context *tdb, TDB_DATA key);
/**
* tdb_chainunlock_read - unlock a record in the TDB for reading
* @tdb: the tdb context returned from tdb_open()
* @key: the key to unlock.
*
* The key must have previously been locked by tdb_chainlock_read().
*/
void tdb_chainunlock_read(struct tdb_context *tdb, TDB_DATA key);
/**
* tdb_lockall - lock the entire TDB
* @tdb: the tdb context returned from tdb_open()
*
* You cannot hold a tdb_chainlock while calling this. It nests, so you
* must call tdb_unlockall as many times as you call tdb_lockall.
*/
enum TDB_ERROR tdb_lockall(struct tdb_context *tdb);
/**
* tdb_unlockall - unlock the entire TDB
* @tdb: the tdb context returned from tdb_open()
*/
void tdb_unlockall(struct tdb_context *tdb);
/**
* tdb_lockall_read - lock the entire TDB for reading
* @tdb: the tdb context returned from tdb_open()
*
* This prevents others writing to the database, eg. tdb_delete, tdb_store,
* tdb_append, but not tdb_fetch.
*
* You cannot hold a tdb_chainlock while calling this. It nests, so you
* must call tdb_unlockall_read as many times as you call tdb_lockall_read.
*/
enum TDB_ERROR tdb_lockall_read(struct tdb_context *tdb);
/**
* tdb_unlockall_read - unlock the entire TDB for reading
* @tdb: the tdb context returned from tdb_open()
*/
void tdb_unlockall_read(struct tdb_context *tdb);
/**
* tdb_wipe_all - wipe the database clean
* @tdb: the tdb context returned from tdb_open()
*
* Completely erase the database. This is faster than iterating through
* each key and doing tdb_delete.
*/
enum TDB_ERROR tdb_wipe_all(struct tdb_context *tdb);
/**
* tdb_repack - repack the database
* @tdb: the tdb context returned from tdb_open()
*
* This repacks the database; if it is suffering from a great deal of
* fragmentation this might help. However, it can take twice the
* memory of the existing TDB.
*/
enum TDB_ERROR tdb_repack(struct tdb_context *tdb);
/**
* tdb_check - check a TDB for consistency
* @tdb: the tdb context returned from tdb_open()
* @check: function to check each key/data pair (or NULL)
* @data: argument for @check, must match type.
*
* This performs a consistency check of the open database, optionally calling
* a check() function on each record so you can do your own data consistency
* checks as well. If check() returns an error, that is returned from
* tdb_check().
*
* Note that the TDB uses a feature which we don't understand which
* indicates we can't run tdb_check(), this will log a warning to that
* effect and return TDB_SUCCESS. You can detect this condition by
* looking for TDB_CANT_CHECK in tdb_get_flags().
*
* Returns TDB_SUCCESS or an error.
*/
#define tdb_check(tdb, check, data) \
tdb_check_((tdb), typesafe_cb_preargs(enum TDB_ERROR, void *, \
(check), (data), \
struct tdb_data, \
struct tdb_data), \
(data))
enum TDB_ERROR tdb_check_(struct tdb_context *tdb,
enum TDB_ERROR (*check)(struct tdb_data k,
struct tdb_data d,
void *data),
void *data);
/**
* tdb_error - get the last error (not threadsafe)
* @tdb: the tdb context returned from tdb_open()
*
* Returns the last error returned by a TDB function.
*
* This makes porting from TDB1 easier, but note that the last error is not
* reliable in threaded programs.
*/
enum TDB_ERROR tdb_error(struct tdb_context *tdb);
/**
* enum tdb_summary_flags - flags for tdb_summary.
*/
enum tdb_summary_flags {
TDB_SUMMARY_HISTOGRAMS = 1 /* Draw graphs in the summary. */
};
/**
* tdb_summary - return a string describing the TDB state
* @tdb: the tdb context returned from tdb_open()
* @flags: flags to control the summary output.
* @summary: pointer to string to allocate.
*
* This returns a developer-readable string describing the overall
* state of the tdb, such as the percentage used and sizes of records.
* It is designed to provide information about the tdb at a glance
* without displaying any keys or data in the database.
*
* On success, sets @summary to point to a malloc()'ed nul-terminated
* multi-line string. It is your responsibility to free() it.
*/
enum TDB_ERROR tdb_summary(struct tdb_context *tdb,
enum tdb_summary_flags flags,
char **summary);
/**
* tdb_get_flags - return the flags for a tdb
* @tdb: the tdb context returned from tdb_open()
*
* This returns the flags on the current tdb. Some of these are caused by
* the flags argument to tdb_open(), others (such as TDB_CONVERT) are
* intuited.
*/
unsigned int tdb_get_flags(struct tdb_context *tdb);
/**
* tdb_add_flag - set a flag for a tdb
* @tdb: the tdb context returned from tdb_open()
* @flag: one of TDB_NOLOCK, TDB_NOMMAP, TDB_NOSYNC or TDB_ALLOW_NESTING.
*
* You can use this to set a flag on the TDB. You cannot set these flags
* on a TDB_INTERNAL tdb.
*/
void tdb_add_flag(struct tdb_context *tdb, unsigned flag);
/**
* tdb_remove_flag - unset a flag for a tdb
* @tdb: the tdb context returned from tdb_open()
* @flag: one of TDB_NOLOCK, TDB_NOMMAP, TDB_NOSYNC or TDB_ALLOW_NESTING.
*
* You can use this to clear a flag on the TDB. You cannot clear flags
* on a TDB_INTERNAL tdb.
*/
void tdb_remove_flag(struct tdb_context *tdb, unsigned flag);
/**
* enum tdb_attribute_type - descriminator for union tdb_attribute.
*/
enum tdb_attribute_type {
TDB_ATTRIBUTE_LOG = 0,
TDB_ATTRIBUTE_HASH = 1,
TDB_ATTRIBUTE_SEED = 2,
TDB_ATTRIBUTE_STATS = 3,
TDB_ATTRIBUTE_OPENHOOK = 4,
TDB_ATTRIBUTE_FLOCK = 5,
TDB_ATTRIBUTE_TDB1_HASHSIZE = 128,
TDB_ATTRIBUTE_TDB1_MAX_DEAD = 129,
};
/**
* tdb_get_attribute - get an attribute for an existing tdb
* @tdb: the tdb context returned from tdb_open()
* @attr: the union tdb_attribute to set.
*
* This gets an attribute from a TDB which has previously been set (or
* may return the default values). Set @attr.base.attr to the
* attribute type you want get.
*/
enum TDB_ERROR tdb_get_attribute(struct tdb_context *tdb,
union tdb_attribute *attr);
/**
* tdb_set_attribute - set an attribute for an existing tdb
* @tdb: the tdb context returned from tdb_open()
* @attr: the union tdb_attribute to set.
*
* This sets an attribute on a TDB, overriding any previous attribute
* of the same type. It returns TDB_ERR_EINVAL if the attribute is
* unknown or invalid.
*
* Note that TDB_ATTRIBUTE_HASH, TDB_ATTRIBUTE_SEED,
* TDB_ATTRIBUTE_OPENHOOK and TDB_ATTRIBUTE_TDB1_HASHSIZE cannot
* currently be set after tdb_open.
*/
enum TDB_ERROR tdb_set_attribute(struct tdb_context *tdb,
const union tdb_attribute *attr);
/**
* tdb_unset_attribute - reset an attribute for an existing tdb
* @tdb: the tdb context returned from tdb_open()
* @type: the attribute type to unset.
*
* This unsets an attribute on a TDB, returning it to the defaults
* (where applicable).
*
* Note that it only makes sense for TDB_ATTRIBUTE_LOG and TDB_ATTRIBUTE_FLOCK
* to be unset.
*/
void tdb_unset_attribute(struct tdb_context *tdb,
enum tdb_attribute_type type);
/**
* tdb_name - get the name of a tdb
* @tdb: the tdb context returned from tdb_open()
*
* This returns a copy of the name string, made at tdb_open() time. If that
* argument was NULL (possible for a TDB_INTERNAL db) this will return NULL.
*
* This is mostly useful for logging.
*/
const char *tdb_name(const struct tdb_context *tdb);
/**
* tdb_fd - get the file descriptor of a tdb
* @tdb: the tdb context returned from tdb_open()
*
* This returns the file descriptor for the underlying database file, or -1
* for TDB_INTERNAL.
*/
int tdb_fd(const struct tdb_context *tdb);
/**
* tdb_foreach - iterate through every open TDB.
* @fn: the function to call for every TDB
* @p: the pointer to hand to @fn
*
* TDB internally keeps track of all open TDBs; this function allows you to
* iterate through them. If @fn returns non-zero, traversal stops.
*/
#define tdb_foreach(fn, p) \
tdb_foreach_(typesafe_cb_preargs(int, void *, (fn), (p), \
struct tdb_context *), (p))
void tdb_foreach_(int (*fn)(struct tdb_context *, void *), void *p);
/**
* struct tdb_attribute_base - common fields for all tdb attributes.
*/
struct tdb_attribute_base {
enum tdb_attribute_type attr;
union tdb_attribute *next;
};
/**
* enum tdb_log_level - log levels for tdb_attribute_log
* @TDB_LOG_ERROR: used to log unrecoverable errors such as I/O errors
* or internal consistency failures.
* @TDB_LOG_USE_ERROR: used to log usage errors such as invalid parameters
* or writing to a read-only database.
* @TDB_LOG_WARNING: used for informational messages on issues which
* are unusual but handled by TDB internally, such
* as a failure to mmap or failure to open /dev/urandom.
*/
enum tdb_log_level {
TDB_LOG_ERROR,
TDB_LOG_USE_ERROR,
TDB_LOG_WARNING
};
/**
* struct tdb_attribute_log - log function attribute
*
* This attribute provides a hook for you to log errors.
*/
struct tdb_attribute_log {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_LOG */
void (*fn)(struct tdb_context *tdb,
enum tdb_log_level level,
enum TDB_ERROR ecode,
const char *message,
void *data);
void *data;
};
/**
* struct tdb_attribute_hash - hash function attribute
*
* This attribute allows you to provide an alternative hash function.
* This hash function will be handed keys from the database; it will also
* be handed the 8-byte TDB_HASH_MAGIC value for checking the header (the
* tdb_open() will fail if the hash value doesn't match the header).
*
* Note that if your hash function gives different results on
* different machine endians, your tdb will no longer work across
* different architectures!
*/
struct tdb_attribute_hash {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_HASH */
uint64_t (*fn)(const void *key, size_t len, uint64_t seed,
void *data);
void *data;
};
/**
* struct tdb_attribute_seed - hash function seed attribute
*
* The hash function seed is normally taken from /dev/urandom (or equivalent)
* but can be set manually here. This is mainly for testing purposes.
*/
struct tdb_attribute_seed {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_SEED */
uint64_t seed;
};
/**
* struct tdb_attribute_stats - tdb operational statistics
*
* This attribute records statistics of various low-level TDB operations.
* This can be used to assist performance evaluation. This is only
* useful for tdb_get_attribute().
*
* New fields will be added at the end, hence the "size" argument which
* indicates how large your structure is: it must be filled in before
* calling tdb_get_attribute(), which will overwrite it with the size
* tdb knows about.
*/
struct tdb_attribute_stats {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_STATS */
size_t size; /* = sizeof(struct tdb_attribute_stats) */
uint64_t allocs;
uint64_t alloc_subhash;
uint64_t alloc_chain;
uint64_t alloc_bucket_exact;
uint64_t alloc_bucket_max;
uint64_t alloc_leftover;
uint64_t alloc_coalesce_tried;
uint64_t alloc_coalesce_iterate_clash;
uint64_t alloc_coalesce_lockfail;
uint64_t alloc_coalesce_race;
uint64_t alloc_coalesce_succeeded;
uint64_t alloc_coalesce_num_merged;
uint64_t compares;
uint64_t compare_wrong_bucket;
uint64_t compare_wrong_offsetbits;
uint64_t compare_wrong_keylen;
uint64_t compare_wrong_rechash;
uint64_t compare_wrong_keycmp;
uint64_t transactions;
uint64_t transaction_cancel;
uint64_t transaction_nest;
uint64_t transaction_expand_file;
uint64_t transaction_read_direct;
uint64_t transaction_read_direct_fail;
uint64_t transaction_write_direct;
uint64_t transaction_write_direct_fail;
uint64_t expands;
uint64_t frees;
uint64_t locks;
uint64_t lock_lowlevel;
uint64_t lock_nonblock;
uint64_t lock_nonblock_fail;
};
/**
* struct tdb_attribute_openhook - tdb special effects hook for open
*
* This attribute contains a function to call once we have the OPEN_LOCK
* for the tdb, but before we've examined its contents. If this succeeds,
* the tdb will be populated if it's then zero-length.
*
* This is a hack to allow support for TDB1-style TDB_CLEAR_IF_FIRST
* behaviour.
*/
struct tdb_attribute_openhook {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_OPENHOOK */
enum TDB_ERROR (*fn)(int fd, void *data);
void *data;
};
/**
* struct tdb_attribute_flock - tdb special effects hook for file locking
*
* This attribute contains function to call to place locks on a file; it can
* be used to support non-blocking operations or lock proxying.
*
* They should return 0 on success, -1 on failure and set errno.
*
* An error will be logged on error if errno is neither EAGAIN nor EINTR
* (normally it would only return EAGAIN if waitflag is false, and
* loop internally on EINTR).
*/
struct tdb_attribute_flock {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_FLOCK */
int (*lock)(int fd,int rw, off_t off, off_t len, bool waitflag, void *);
int (*unlock)(int fd, int rw, off_t off, off_t len, void *);
void *data;
};
/**
* struct tdb_attribute_tdb1_hashsize - tdb1 hashsize
*
* This attribute allows setting the TDB1 hashsize; it only makes sense with
* O_CREAT and TDB_VERSION1.
*
* Hashsize should generally be a prime, such as 10007.
*/
struct tdb_attribute_tdb1_hashsize {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_TDB1_HASHSIZE */
unsigned int hsize;
};
/**
* struct tdb_attribute_tdb1_max_dead - tdb1 number of maximum dead records.
*
* TDB1 has a method to speed up its slow free list: it lets a certain
* number of "dead" records build up before freeing them. This is
* particularly useful for volatile TDBs; setting it to 5 is
* equivalent to tdb1's TDB_VOLATILE flag.
*/
struct tdb_attribute_tdb1_max_dead {
struct tdb_attribute_base base; /* .attr = TDB_ATTRIBUTE_TDB1_MAX_DEAD */
unsigned int max_dead;
};
/**
* union tdb_attribute - tdb attributes.
*
* This represents all the known attributes.
*
* See also:
* struct tdb_attribute_log, struct tdb_attribute_hash,
* struct tdb_attribute_seed, struct tdb_attribute_stats,
* struct tdb_attribute_openhook, struct tdb_attribute_flock.
*/
union tdb_attribute {
struct tdb_attribute_base base;
struct tdb_attribute_log log;
struct tdb_attribute_hash hash;
struct tdb_attribute_seed seed;
struct tdb_attribute_stats stats;
struct tdb_attribute_openhook openhook;
struct tdb_attribute_flock flock;
struct tdb_attribute_tdb1_hashsize tdb1_hashsize;
struct tdb_attribute_tdb1_max_dead tdb1_max_dead;
};
#ifdef __cplusplus
}
#endif
#endif /* tdb2.h */
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