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193 lines
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Plaintext
193 lines
8.3 KiB
Plaintext
/*
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* Copyright 2015-2018 Howard Chu, Symas Corp.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted only as authorized by the OpenLDAP
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* Public License.
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*
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* A copy of this license is available in the file LICENSE in the
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* top-level directory of the distribution or, alternatively, at
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* <http://www.OpenLDAP.org/license.html>.
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*/
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/** @page starting Getting Started
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LMDB is compact, fast, powerful, and robust and implements a simplified
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variant of the BerkeleyDB (BDB) API. (BDB is also very powerful, and verbosely
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documented in its own right.) After reading this page, the main
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\ref mdb documentation should make sense. Thanks to Bert Hubert
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for creating the
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<a href="https://github.com/ahupowerdns/ahutils/blob/master/lmdb-semantics.md">
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initial version</a> of this writeup.
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Everything starts with an environment, created by #mdb_env_create().
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Once created, this environment must also be opened with #mdb_env_open().
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#mdb_env_open() gets passed a name which is interpreted as a directory
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path. Note that this directory must exist already, it is not created
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for you. Within that directory, a lock file and a storage file will be
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generated. If you don't want to use a directory, you can pass the
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#MDB_NOSUBDIR option, in which case the path you provided is used
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directly as the data file, and another file with a "-lock" suffix
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added will be used for the lock file.
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Once the environment is open, a transaction can be created within it
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using #mdb_txn_begin(). Transactions may be read-write or read-only,
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and read-write transactions may be nested. A transaction must only
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be used by one thread at a time. Transactions are always required,
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even for read-only access. The transaction provides a consistent
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view of the data.
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Once a transaction has been created, a database can be opened within it
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using #mdb_dbi_open(). If only one database will ever be used in the
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environment, a NULL can be passed as the database name. For named
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databases, the #MDB_CREATE flag must be used to create the database
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if it doesn't already exist. Also, #mdb_env_set_maxdbs() must be
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called after #mdb_env_create() and before #mdb_env_open() to set the
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maximum number of named databases you want to support.
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Note: a single transaction can open multiple databases. Generally
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databases should only be opened once, by the first transaction in
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the process. After the first transaction completes, the database
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handles can freely be used by all subsequent transactions.
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Within a transaction, #mdb_get() and #mdb_put() can store single
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key/value pairs if that is all you need to do (but see \ref Cursors
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below if you want to do more).
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A key/value pair is expressed as two #MDB_val structures. This struct
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has two fields, \c mv_size and \c mv_data. The data is a \c void pointer to
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an array of \c mv_size bytes.
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Because LMDB is very efficient (and usually zero-copy), the data returned
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in an #MDB_val structure may be memory-mapped straight from disk. In
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other words <b>look but do not touch</b> (or free() for that matter).
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Once a transaction is closed, the values can no longer be used, so
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make a copy if you need to keep them after that.
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@section Cursors Cursors
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To do more powerful things, we must use a cursor.
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Within the transaction, a cursor can be created with #mdb_cursor_open().
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With this cursor we can store/retrieve/delete (multiple) values using
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#mdb_cursor_get(), #mdb_cursor_put(), and #mdb_cursor_del().
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#mdb_cursor_get() positions itself depending on the cursor operation
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requested, and for some operations, on the supplied key. For example,
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to list all key/value pairs in a database, use operation #MDB_FIRST for
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the first call to #mdb_cursor_get(), and #MDB_NEXT on subsequent calls,
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until the end is hit.
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To retrieve all keys starting from a specified key value, use #MDB_SET.
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For more cursor operations, see the \ref mdb docs.
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When using #mdb_cursor_put(), either the function will position the
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cursor for you based on the \b key, or you can use operation
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#MDB_CURRENT to use the current position of the cursor. Note that
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\b key must then match the current position's key.
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@subsection summary Summarizing the Opening
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So we have a cursor in a transaction which opened a database in an
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environment which is opened from a filesystem after it was
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separately created.
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Or, we create an environment, open it from a filesystem, create a
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transaction within it, open a database within that transaction,
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and create a cursor within all of the above.
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Got it?
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@section thrproc Threads and Processes
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LMDB uses POSIX locks on files, and these locks have issues if one
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process opens a file multiple times. Because of this, do not
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#mdb_env_open() a file multiple times from a single process. Instead,
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share the LMDB environment that has opened the file across all threads.
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Otherwise, if a single process opens the same environment multiple times,
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closing it once will remove all the locks held on it, and the other
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instances will be vulnerable to corruption from other processes.
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Also note that a transaction is tied to one thread by default using
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Thread Local Storage. If you want to pass read-only transactions across
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threads, you can use the #MDB_NOTLS option on the environment.
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@section txns Transactions, Rollbacks, etc.
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To actually get anything done, a transaction must be committed using
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#mdb_txn_commit(). Alternatively, all of a transaction's operations
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can be discarded using #mdb_txn_abort(). In a read-only transaction,
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any cursors will \b not automatically be freed. In a read-write
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transaction, all cursors will be freed and must not be used again.
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For read-only transactions, obviously there is nothing to commit to
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storage. The transaction still must eventually be aborted to close
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any database handle(s) opened in it, or committed to keep the
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database handles around for reuse in new transactions.
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In addition, as long as a transaction is open, a consistent view of
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the database is kept alive, which requires storage. A read-only
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transaction that no longer requires this consistent view should
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be terminated (committed or aborted) when the view is no longer
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needed (but see below for an optimization).
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There can be multiple simultaneously active read-only transactions
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but only one that can write. Once a single read-write transaction
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is opened, all further attempts to begin one will block until the
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first one is committed or aborted. This has no effect on read-only
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transactions, however, and they may continue to be opened at any time.
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@section dupkeys Duplicate Keys
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#mdb_get() and #mdb_put() respectively have no and only some support
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for multiple key/value pairs with identical keys. If there are multiple
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values for a key, #mdb_get() will only return the first value.
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When multiple values for one key are required, pass the #MDB_DUPSORT
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flag to #mdb_dbi_open(). In an #MDB_DUPSORT database, by default
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#mdb_put() will not replace the value for a key if the key existed
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already. Instead it will add the new value to the key. In addition,
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#mdb_del() will pay attention to the value field too, allowing for
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specific values of a key to be deleted.
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Finally, additional cursor operations become available for
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traversing through and retrieving duplicate values.
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@section optim Some Optimization
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If you frequently begin and abort read-only transactions, as an
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optimization, it is possible to only reset and renew a transaction.
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#mdb_txn_reset() releases any old copies of data kept around for
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a read-only transaction. To reuse this reset transaction, call
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#mdb_txn_renew() on it. Any cursors in this transaction must also
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be renewed using #mdb_cursor_renew().
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Note that #mdb_txn_reset() is similar to #mdb_txn_abort() and will
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close any databases you opened within the transaction.
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To permanently free a transaction, reset or not, use #mdb_txn_abort().
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@section cleanup Cleaning Up
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For read-only transactions, any cursors created within it must
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be closed using #mdb_cursor_close().
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It is very rarely necessary to close a database handle, and in
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general they should just be left open.
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@section onward The Full API
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The full \ref mdb documentation lists further details, like how to:
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\li size a database (the default limits are intentionally small)
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\li drop and clean a database
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\li detect and report errors
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\li optimize (bulk) loading speed
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\li (temporarily) reduce robustness to gain even more speed
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\li gather statistics about the database
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\li define custom sort orders
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*/
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