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832 lines
35 KiB
HTML
832 lines
35 KiB
HTML
<!DOCTYPE html>
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<html>
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<head>
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<link rel="stylesheet" type="text/css" href="doc.css" />
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<title>RocksDB</title>
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</head>
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<body>
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<h1>RocksDB</h1>
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<address>The Facebook Database Engineering Team</address>
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<address>Build on earlier work on leveldb by Sanjay Ghemawat
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(sanjay@google.com) and Jeff Dean (jeff@google.com)</address>
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<p>
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The <code>rocksdb</code> library provides a persistent key value store. Keys and
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values are arbitrary byte arrays. The keys are ordered within the key
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value store according to a user-specified comparator function.
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<p>
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<h1>Opening A Database</h1>
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<p>
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A <code>rocksdb</code> database has a name which corresponds to a file system
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directory. All of the contents of database are stored in this
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directory. The following example shows how to open a database,
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creating it if necessary:
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<p>
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<pre>
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#include <assert>
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#include "rocksdb/db.h"
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rocksdb::DB* db;
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rocksdb::Options options;
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options.create_if_missing = true;
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rocksdb::Status status = rocksdb::DB::Open(options, "/tmp/testdb", &db);
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assert(status.ok());
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...
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</pre>
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If you want to raise an error if the database already exists, add
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the following line before the <code>rocksdb::DB::Open</code> call:
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<pre>
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options.error_if_exists = true;
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</pre>
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<h1>Status</h1>
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<p>
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You may have noticed the <code>rocksdb::Status</code> type above. Values of this
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type are returned by most functions in <code>rocksdb</code> that may encounter an
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error. You can check if such a result is ok, and also print an
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associated error message:
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<p>
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<pre>
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rocksdb::Status s = ...;
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if (!s.ok()) cerr << s.ToString() << endl;
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</pre>
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<h1>Closing A Database</h1>
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<p>
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When you are done with a database, just delete the database object.
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Example:
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<p>
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<pre>
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... open the db as described above ...
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... do something with db ...
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delete db;
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</pre>
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<h1>Reads And Writes</h1>
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<p>
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The database provides <code>Put</code>, <code>Delete</code>, and <code>Get</code> methods to
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modify/query the database. For example, the following code
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moves the value stored under key1 to key2.
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<pre>
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std::string value;
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rocksdb::Status s = db->Get(rocksdb::ReadOptions(), key1, &value);
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if (s.ok()) s = db->Put(rocksdb::WriteOptions(), key2, value);
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if (s.ok()) s = db->Delete(rocksdb::WriteOptions(), key1);
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</pre>
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<h1>Atomic Updates</h1>
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<p>
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Note that if the process dies after the Put of key2 but before the
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delete of key1, the same value may be left stored under multiple keys.
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Such problems can be avoided by using the <code>WriteBatch</code> class to
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atomically apply a set of updates:
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<p>
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<pre>
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#include "rocksdb/write_batch.h"
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...
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std::string value;
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rocksdb::Status s = db->Get(rocksdb::ReadOptions(), key1, &value);
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if (s.ok()) {
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rocksdb::WriteBatch batch;
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batch.Delete(key1);
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batch.Put(key2, value);
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s = db->Write(rocksdb::WriteOptions(), &batch);
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}
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</pre>
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The <code>WriteBatch</code> holds a sequence of edits to be made to the database,
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and these edits within the batch are applied in order. Note that we
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called <code>Delete</code> before <code>Put</code> so that if <code>key1</code> is identical to <code>key2</code>,
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we do not end up erroneously dropping the value entirely.
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<p>
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Apart from its atomicity benefits, <code>WriteBatch</code> may also be used to
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speed up bulk updates by placing lots of individual mutations into the
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same batch.
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<h1>Synchronous Writes</h1>
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By default, each write to <code>leveldb</code> is asynchronous: it
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returns after pushing the write from the process into the operating
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system. The transfer from operating system memory to the underlying
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persistent storage happens asynchronously. The <code>sync</code> flag
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can be turned on for a particular write to make the write operation
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not return until the data being written has been pushed all the way to
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persistent storage. (On Posix systems, this is implemented by calling
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either <code>fsync(...)</code> or <code>fdatasync(...)</code> or
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<code>msync(..., MS_SYNC)</code> before the write operation returns.)
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<pre>
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rocksdb::WriteOptions write_options;
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write_options.sync = true;
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db->Put(write_options, ...);
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</pre>
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Asynchronous writes are often more than a thousand times as fast as
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synchronous writes. The downside of asynchronous writes is that a
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crash of the machine may cause the last few updates to be lost. Note
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that a crash of just the writing process (i.e., not a reboot) will not
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cause any loss since even when <code>sync</code> is false, an update
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is pushed from the process memory into the operating system before it
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is considered done.
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<p>
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Asynchronous writes can often be used safely. For example, when
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loading a large amount of data into the database you can handle lost
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updates by restarting the bulk load after a crash. A hybrid scheme is
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also possible where every Nth write is synchronous, and in the event
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of a crash, the bulk load is restarted just after the last synchronous
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write finished by the previous run. (The synchronous write can update
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a marker that describes where to restart on a crash.)
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<p>
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<code>WriteBatch</code> provides an alternative to asynchronous writes.
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Multiple updates may be placed in the same <code>WriteBatch</code> and
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applied together using a synchronous write (i.e.,
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<code>write_options.sync</code> is set to true). The extra cost of
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the synchronous write will be amortized across all of the writes in
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the batch.
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<p>
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We also provide a way to completely disable Write Ahead Log for a
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particular write. If you set write_option.disableWAL to true, the
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write will not go to the log at all and may be lost in an event of
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process crash.
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<p>
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When opening a DB, you can disable syncing of data files by setting
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Options::disableDataSync to true. This can be useful when doing
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bulk-loading or big idempotent operations. Once the operation is
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finished, you can manually call sync() to flush all dirty buffers
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to stable storage.
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<p>
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RocksDB by default uses faster fdatasync() to sync files. If you want
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to use fsync(), you can set Options::use_fsync to true. You should set
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this to true on filesystems like ext3 that can lose files after a
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reboot.
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<p>
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<h1>Concurrency</h1>
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<p>
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A database may only be opened by one process at a time.
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The <code>rocksdb</code> implementation acquires a lock from the
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operating system to prevent misuse. Within a single process, the
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same <code>rocksdb::DB</code> object may be safely shared by multiple
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concurrent threads. I.e., different threads may write into or fetch
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iterators or call <code>Get</code> on the same database without any
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external synchronization (the leveldb implementation will
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automatically do the required synchronization). However other objects
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(like Iterator and WriteBatch) may require external synchronization.
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If two threads share such an object, they must protect access to it
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using their own locking protocol. More details are available in
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the public header files.
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<p>
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<h1>Merge operators</h1>
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<p>
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Merge operators provide efficient support for read-modify-write operation.
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More on the interface and implementation can be found on:
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<p>
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<a href="https://github.com/facebook/rocksdb/wiki/Merge-Operator">
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Merge Operator</a>
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<p>
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<a href="https://github.com/facebook/rocksdb/wiki/Merge-Operator-Implementation">
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Merge Operator Implementation</a>
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<p>
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<h1>Iteration</h1>
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<p>
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The following example demonstrates how to print all key,value pairs
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in a database.
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<p>
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<pre>
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rocksdb::Iterator* it = db->NewIterator(rocksdb::ReadOptions());
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for (it->SeekToFirst(); it->Valid(); it->Next()) {
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cout << it->key().ToString() << ": " << it->value().ToString() << endl;
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}
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assert(it->status().ok()); // Check for any errors found during the scan
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delete it;
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</pre>
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The following variation shows how to process just the keys in the
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range <code>[start,limit)</code>:
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<p>
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<pre>
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for (it->Seek(start);
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it->Valid() && it->key().ToString() < limit;
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it->Next()) {
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...
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}
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</pre>
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You can also process entries in reverse order. (Caveat: reverse
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iteration may be somewhat slower than forward iteration.)
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<p>
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<pre>
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for (it->SeekToLast(); it->Valid(); it->Prev()) {
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...
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}
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</pre>
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<h1>Snapshots</h1>
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<p>
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Snapshots provide consistent read-only views over the entire state of
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the key-value store. <code>ReadOptions::snapshot</code> may be non-NULL to indicate
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that a read should operate on a particular version of the DB state.
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If <code>ReadOptions::snapshot</code> is NULL, the read will operate on an
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implicit snapshot of the current state.
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<p>
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Snapshots are created by the DB::GetSnapshot() method:
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<p>
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<pre>
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rocksdb::ReadOptions options;
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options.snapshot = db->GetSnapshot();
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... apply some updates to db ...
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rocksdb::Iterator* iter = db->NewIterator(options);
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... read using iter to view the state when the snapshot was created ...
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delete iter;
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db->ReleaseSnapshot(options.snapshot);
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</pre>
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Note that when a snapshot is no longer needed, it should be released
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using the DB::ReleaseSnapshot interface. This allows the
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implementation to get rid of state that was being maintained just to
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support reading as of that snapshot.
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<h1>Slice</h1>
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<p>
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The return value of the <code>it->key()</code> and <code>it->value()</code> calls above
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are instances of the <code>rocksdb::Slice</code> type. <code>Slice</code> is a simple
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structure that contains a length and a pointer to an external byte
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array. Returning a <code>Slice</code> is a cheaper alternative to returning a
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<code>std::string</code> since we do not need to copy potentially large keys and
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values. In addition, <code>rocksdb</code> methods do not return null-terminated
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C-style strings since <code>rocksdb</code> keys and values are allowed to
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contain '\0' bytes.
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<p>
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C++ strings and null-terminated C-style strings can be easily converted
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to a Slice:
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<p>
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<pre>
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rocksdb::Slice s1 = "hello";
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std::string str("world");
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rocksdb::Slice s2 = str;
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</pre>
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A Slice can be easily converted back to a C++ string:
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<pre>
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std::string str = s1.ToString();
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assert(str == std::string("hello"));
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</pre>
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Be careful when using Slices since it is up to the caller to ensure that
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the external byte array into which the Slice points remains live while
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the Slice is in use. For example, the following is buggy:
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<p>
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<pre>
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rocksdb::Slice slice;
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if (...) {
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std::string str = ...;
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slice = str;
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}
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Use(slice);
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</pre>
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When the <code>if</code> statement goes out of scope, <code>str</code> will be destroyed and the
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backing storage for <code>slice</code> will disappear.
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<p>
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<h1>Comparators</h1>
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<p>
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The preceding examples used the default ordering function for key,
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which orders bytes lexicographically. You can however supply a custom
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comparator when opening a database. For example, suppose each
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database key consists of two numbers and we should sort by the first
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number, breaking ties by the second number. First, define a proper
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subclass of <code>rocksdb::Comparator</code> that expresses these rules:
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<p>
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<pre>
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class TwoPartComparator : public rocksdb::Comparator {
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public:
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// Three-way comparison function:
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// if a < b: negative result
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// if a > b: positive result
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// else: zero result
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int Compare(const rocksdb::Slice& a, const rocksdb::Slice& b) const {
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int a1, a2, b1, b2;
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ParseKey(a, &a1, &a2);
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ParseKey(b, &b1, &b2);
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if (a1 < b1) return -1;
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if (a1 > b1) return +1;
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if (a2 < b2) return -1;
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if (a2 > b2) return +1;
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return 0;
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}
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// Ignore the following methods for now:
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const char* Name() const { return "TwoPartComparator"; }
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void FindShortestSeparator(std::string*, const rocksdb::Slice&) const { }
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void FindShortSuccessor(std::string*) const { }
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};
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</pre>
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Now create a database using this custom comparator:
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<p>
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<pre>
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TwoPartComparator cmp;
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rocksdb::DB* db;
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rocksdb::Options options;
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options.create_if_missing = true;
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options.comparator = &cmp;
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rocksdb::Status status = rocksdb::DB::Open(options, "/tmp/testdb", &db);
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...
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</pre>
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<h2>Backwards compatibility</h2>
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<p>
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The result of the comparator's <code>Name</code> method is attached to the
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database when it is created, and is checked on every subsequent
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database open. If the name changes, the <code>rocksdb::DB::Open</code> call will
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fail. Therefore, change the name if and only if the new key format
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and comparison function are incompatible with existing databases, and
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it is ok to discard the contents of all existing databases.
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<p>
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You can however still gradually evolve your key format over time with
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a little bit of pre-planning. For example, you could store a version
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number at the end of each key (one byte should suffice for most uses).
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When you wish to switch to a new key format (e.g., adding an optional
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third part to the keys processed by <code>TwoPartComparator</code>),
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(a) keep the same comparator name (b) increment the version number
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for new keys (c) change the comparator function so it uses the
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version numbers found in the keys to decide how to interpret them.
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<p>
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<h1>MemTable and Table factories</h1>
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<p>
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By default, we keep the data in memory in skiplist memtable and the data
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on disk in a table format described here:
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<a href="https://github.com/facebook/rocksdb/wiki/Rocksdb-Table-Format">
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RocksDB Table Format</a>.
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<p>
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Since one of the goals of RocksDB is to have
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different parts of the system easily pluggable, we support different
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implementations of both memtable and table format. You can supply
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your own memtable factory by setting <code>Options::memtable_factory</code>
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and your own table factory by setting <code>Options::table_factory</code>.
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For available memtable factories, please refer to
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<code>rocksdb/memtablerep.h</code> and for table factores to
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<code>rocksdb/table.h</code>. These features are both in active development
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and please be wary of any API changes that might break your application
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going forward.
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<p>
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You can also read more about memtables here:
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<a href="https://github.com/facebook/rocksdb/wiki/Rocksdb-Architecture-Guide#memtables">
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Memtables wiki
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</a>
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<p>
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<h1>Performance</h1>
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<p>
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Performance can be tuned by changing the default values of the
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types defined in <code>include/rocksdb/options.h</code>.
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<p>
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<h2>Block size</h2>
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<p>
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<code>rocksdb</code> groups adjacent keys together into the same block and such a
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block is the unit of transfer to and from persistent storage. The
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default block size is approximately 4096 uncompressed bytes.
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Applications that mostly do bulk scans over the contents of the
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database may wish to increase this size. Applications that do a lot
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of point reads of small values may wish to switch to a smaller block
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size if performance measurements indicate an improvement. There isn't
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much benefit in using blocks smaller than one kilobyte, or larger than
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a few megabytes. Also note that compression will be more effective
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with larger block sizes. To change block size parameter, use
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<code>Options::block_size</code>.
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<p>
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<h2>Write buffer</h2>
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<p>
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<code>Options::write_buffer_size</code> specifies the amount of data
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to build up in memory before converting to a sorted on-disk file.
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Larger values increase performance, especially during bulk loads.
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Up to max_write_buffer_number write buffers may be held in memory
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at the same time,
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so you may wish to adjust this parameter to control memory usage.
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Also, a larger write buffer will result in a longer recovery time
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the next time the database is opened.
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Related option is
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<code>Options::max_write_buffer_number</code>, which is maximum number
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of write buffers that are built up in memory. The default is 2, so that
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when 1 write buffer is being flushed to storage, new writes can continue
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to the other write buffer.
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<code>Options::min_write_buffer_number_to_merge</code> is the minimum number
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of write buffers that will be merged together before writing to storage.
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If set to 1, then all write buffers are flushed to L0 as individual files and
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this increases read amplification because a get request has to check in all
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of these files. Also, an in-memory merge may result in writing lesser
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data to storage if there are duplicate records in each of these
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individual write buffers. Default: 1
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<p>
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<h2>Compression</h2>
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<p>
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Each block is individually compressed before being written to
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persistent storage. Compression is on by default since the default
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compression method is very fast, and is automatically disabled for
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uncompressible data. In rare cases, applications may want to disable
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compression entirely, but should only do so if benchmarks show a
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performance improvement:
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<p>
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<pre>
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rocksdb::Options options;
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options.compression = rocksdb::kNoCompression;
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... rocksdb::DB::Open(options, name, ...) ....
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</pre>
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<h2>Cache</h2>
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<p>
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The contents of the database are stored in a set of files in the
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filesystem and each file stores a sequence of compressed blocks. If
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<code>options.block_cache</code> is non-NULL, it is used to cache frequently
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used uncompressed block contents. If <code>options.block_cache_compressed</code>
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is non-NULL, it is used to cache frequently used compressed blocks. Compressed
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cache is an alternative to OS cache, which also caches compressed blocks. If
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compressed cache is used, the OS cache will be disabled automatically by setting
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<code>options.allow_os_buffer</code> to false.
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<p>
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<pre>
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#include "rocksdb/cache.h"
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rocksdb::Options options;
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options.block_cache = rocksdb::NewLRUCache(100 * 1048576); // 100MB uncompressed cache
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options.block_cache_compressed = rocksdb::NewLRUCache(100 * 1048576); // 100MB compressed cache
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rocksdb::DB* db;
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rocksdb::DB::Open(options, name, &db);
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... use the db ...
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delete db
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delete options.block_cache;
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delete options.block_cache_compressed;
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</pre>
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<p>
|
|
When performing a bulk read, the application may wish to disable
|
|
caching so that the data processed by the bulk read does not end up
|
|
displacing most of the cached contents. A per-iterator option can be
|
|
used to achieve this:
|
|
<p>
|
|
<pre>
|
|
rocksdb::ReadOptions options;
|
|
options.fill_cache = false;
|
|
rocksdb::Iterator* it = db->NewIterator(options);
|
|
for (it->SeekToFirst(); it->Valid(); it->Next()) {
|
|
...
|
|
}
|
|
</pre>
|
|
<p>
|
|
You can also disable block cache by setting <code>options.no_block_cache</code>
|
|
to true.
|
|
<h2>Key Layout</h2>
|
|
<p>
|
|
Note that the unit of disk transfer and caching is a block. Adjacent
|
|
keys (according to the database sort order) will usually be placed in
|
|
the same block. Therefore the application can improve its performance
|
|
by placing keys that are accessed together near each other and placing
|
|
infrequently used keys in a separate region of the key space.
|
|
<p>
|
|
For example, suppose we are implementing a simple file system on top
|
|
of <code>rocksdb</code>. The types of entries we might wish to store are:
|
|
<p>
|
|
<pre>
|
|
filename -> permission-bits, length, list of file_block_ids
|
|
file_block_id -> data
|
|
</pre>
|
|
We might want to prefix <code>filename</code> keys with one letter (say '/') and the
|
|
<code>file_block_id</code> keys with a different letter (say '0') so that scans
|
|
over just the metadata do not force us to fetch and cache bulky file
|
|
contents.
|
|
<p>
|
|
<h2>Filters</h2>
|
|
<p>
|
|
Because of the way <code>rocksdb</code> data is organized on disk,
|
|
a single <code>Get()</code> call may involve multiple reads from disk.
|
|
The optional <code>FilterPolicy</code> mechanism can be used to reduce
|
|
the number of disk reads substantially.
|
|
<pre>
|
|
rocksdb::Options options;
|
|
options.filter_policy = NewBloomFilter(10);
|
|
rocksdb::DB* db;
|
|
rocksdb::DB::Open(options, "/tmp/testdb", &db);
|
|
... use the database ...
|
|
delete db;
|
|
delete options.filter_policy;
|
|
</pre>
|
|
The preceding code associates a
|
|
<a href="http://en.wikipedia.org/wiki/Bloom_filter">Bloom filter</a>
|
|
based filtering policy with the database. Bloom filter based
|
|
filtering relies on keeping some number of bits of data in memory per
|
|
key (in this case 10 bits per key since that is the argument we passed
|
|
to NewBloomFilter). This filter will reduce the number of unnecessary
|
|
disk reads needed for <code>Get()</code> calls by a factor of
|
|
approximately a 100. Increasing the bits per key will lead to a
|
|
larger reduction at the cost of more memory usage. We recommend that
|
|
applications whose working set does not fit in memory and that do a
|
|
lot of random reads set a filter policy.
|
|
<p>
|
|
If you are using a custom comparator, you should ensure that the filter
|
|
policy you are using is compatible with your comparator. For example,
|
|
consider a comparator that ignores trailing spaces when comparing keys.
|
|
<code>NewBloomFilter</code> must not be used with such a comparator.
|
|
Instead, the application should provide a custom filter policy that
|
|
also ignores trailing spaces. For example:
|
|
<pre>
|
|
class CustomFilterPolicy : public rocksdb::FilterPolicy {
|
|
private:
|
|
FilterPolicy* builtin_policy_;
|
|
public:
|
|
CustomFilterPolicy() : builtin_policy_(NewBloomFilter(10)) { }
|
|
~CustomFilterPolicy() { delete builtin_policy_; }
|
|
|
|
const char* Name() const { return "IgnoreTrailingSpacesFilter"; }
|
|
|
|
void CreateFilter(const Slice* keys, int n, std::string* dst) const {
|
|
// Use builtin bloom filter code after removing trailing spaces
|
|
std::vector<Slice> trimmed(n);
|
|
for (int i = 0; i < n; i++) {
|
|
trimmed[i] = RemoveTrailingSpaces(keys[i]);
|
|
}
|
|
return builtin_policy_->CreateFilter(&trimmed[i], n, dst);
|
|
}
|
|
|
|
bool KeyMayMatch(const Slice& key, const Slice& filter) const {
|
|
// Use builtin bloom filter code after removing trailing spaces
|
|
return builtin_policy_->KeyMayMatch(RemoveTrailingSpaces(key), filter);
|
|
}
|
|
};
|
|
</pre>
|
|
<p>
|
|
Advanced applications may provide a filter policy that does not use
|
|
a bloom filter but uses some other mechanism for summarizing a set
|
|
of keys. See <code>rocksdb/filter_policy.h</code> for detail.
|
|
<p>
|
|
<h1>Checksums</h1>
|
|
<p>
|
|
<code>rocksdb</code> associates checksums with all data it stores in the file system.
|
|
There are two separate controls provided over how aggressively these
|
|
checksums are verified:
|
|
<p>
|
|
<ul>
|
|
<li> <code>ReadOptions::verify_checksums</code> may be set to true to force
|
|
checksum verification of all data that is read from the file system on
|
|
behalf of a particular read. By default, no such verification is
|
|
done.
|
|
<p>
|
|
<li> <code>Options::paranoid_checks</code> may be set to true before opening a
|
|
database to make the database implementation raise an error as soon as
|
|
it detects an internal corruption. Depending on which portion of the
|
|
database has been corrupted, the error may be raised when the database
|
|
is opened, or later by another database operation. By default,
|
|
paranoid checking is off so that the database can be used even if
|
|
parts of its persistent storage have been corrupted.
|
|
<p>
|
|
If a database is corrupted (perhaps it cannot be opened when
|
|
paranoid checking is turned on), the <code>rocksdb::RepairDB</code> function
|
|
may be used to recover as much of the data as possible.
|
|
<p>
|
|
</ul>
|
|
|
|
<p>
|
|
<h1>Compaction</h1>
|
|
<p>
|
|
You can read more on Compactions here:
|
|
<a href="https://github.com/facebook/rocksdb/wiki/Rocksdb-Architecture-Guide#multi-threaded-compactions">
|
|
Multi-threaded compactions
|
|
</a>
|
|
<p>
|
|
Here we give overview of the options that impact behavior of Compactions:
|
|
<ul>
|
|
<p>
|
|
<li><code>Options::compaction_style</code> - RocksDB currently supports two
|
|
compaction algorithms - Universal style and Level style. This option switches
|
|
between the two. Can be kCompactionStyleUniversal or kCompactionStyleLevel.
|
|
If this is kCompactionStyleUniversal, then you can configure universal style
|
|
parameters with <code>Options::compaction_options_universal</code>.
|
|
<p>
|
|
<li><code>Options::disable_auto_compactions</code> - Disable automatic compactions.
|
|
Manual compactions can still be issued on this database.
|
|
<p>
|
|
<li><code>Options::compaction_filter</code> - Allows an application to modify/delete
|
|
a key-value during background compaction. The client must provide
|
|
compaction_filter_factory if it requires a new compaction filter to be used
|
|
for different compaction processes. Client should specify only one of filter
|
|
or factory.
|
|
<p>
|
|
<li><code>Options::compaction_filter_factory</code> - a factory that provides
|
|
compaction filter objects which allow an application to modify/delete a
|
|
key-value during background compaction.
|
|
</ul>
|
|
<p>
|
|
Other options impacting performance of compactions and when they get triggered
|
|
are:
|
|
<ul>
|
|
<p>
|
|
<li> <code>Options::access_hint_on_compaction_start</code> - Specify the file access
|
|
pattern once a compaction is started. It will be applied to all input files of a compaction. Default: NORMAL
|
|
<p>
|
|
<li> <code>Options::level0_file_num_compaction_trigger</code> - Number of files to trigger level-0 compaction.
|
|
A negative value means that level-0 compaction will not be triggered by number of files at all.
|
|
<p>
|
|
<li> <code>Options::max_mem_compaction_level</code> - Maximum level to which a new compacted memtable is pushed if it
|
|
does not create overlap. We try to push to level 2 to avoid the relatively expensive level 0=>1 compactions and to avoid some
|
|
expensive manifest file operations. We do not push all the way to the largest level since that can generate a lot of wasted disk
|
|
space if the same key space is being repeatedly overwritten.
|
|
<p>
|
|
<li> <code>Options::target_file_size_base</code> and <code>Options::target_file_size_multiplier</code> -
|
|
Target file size for compaction. target_file_size_base is per-file size for level-1.
|
|
Target file size for level L can be calculated by target_file_size_base * (target_file_size_multiplier ^ (L-1))
|
|
For example, if target_file_size_base is 2MB and target_file_size_multiplier is 10, then each file on level-1 will
|
|
be 2MB, and each file on level 2 will be 20MB, and each file on level-3 will be 200MB. Default target_file_size_base is 2MB
|
|
and default target_file_size_multiplier is 1.
|
|
<p>
|
|
<li> <code>Options::expanded_compaction_factor</code> - Maximum number of bytes in all compacted files. We avoid expanding
|
|
the lower level file set of a compaction if it would make the total compaction cover more than
|
|
(expanded_compaction_factor * targetFileSizeLevel()) many bytes.
|
|
<p>
|
|
<li> <code>Options::source_compaction_factor</code> - Maximum number of bytes in all source files to be compacted in a
|
|
single compaction run. We avoid picking too many files in the source level so that we do not exceed the total source bytes
|
|
for compaction to exceed (source_compaction_factor * targetFileSizeLevel()) many bytes.
|
|
Default:1, i.e. pick maxfilesize amount of data as the source of a compaction.
|
|
<p>
|
|
<li> <code>Options::max_grandparent_overlap_factor</code> - Control maximum bytes of overlaps in grandparent (i.e., level+2) before we
|
|
stop building a single file in a level->level+1 compaction.
|
|
<p>
|
|
<li> <code>Options::disable_seek_compaction</code> - Disable compaction triggered by seek.
|
|
With bloomfilter and fast storage, a miss on one level is very cheap if the file handle is cached in table cache
|
|
(which is true if max_open_files is large).
|
|
<p>
|
|
<li> <code>Options::max_background_compactions</code> - Maximum number of concurrent background jobs, submitted to
|
|
the default LOW priority thread pool
|
|
</ul>
|
|
|
|
<p>
|
|
You can learn more about all of those options in <code>rocksdb/options.h</code>
|
|
|
|
<h2> Universal style compaction specific settings</h2>
|
|
<p>
|
|
If you're using Universal style compaction, there is an object <code>CompactionOptionsUniversal</code>
|
|
that hold all the different options for that compaction. The exact definition is in
|
|
<code>rocksdb/universal_compaction.h</code> and you can set it in <code>Options::compaction_options_universal</code>.
|
|
Here we give short overview of options in <code>CompactionOptionsUniversal</code>:
|
|
<ul>
|
|
<p>
|
|
<li> <code>CompactionOptionsUniversal::size_ratio</code> - Percentage flexibility while comparing file size. If the candidate file(s)
|
|
size is 1% smaller than the next file's size, then include next file into
|
|
this candidate set. Default: 1
|
|
<p>
|
|
<li> <code>CompactionOptionsUniversal::min_merge_width</code> - The minimum number of files in a single compaction run. Default: 2
|
|
<p>
|
|
<li> <code>CompactionOptionsUniversal::max_merge_width</code> - The maximum number of files in a single compaction run. Default: UINT_MAX
|
|
<p>
|
|
<li> <code>CompactionOptionsUniversal::max_size_amplification_percent</code> - The size amplification is defined as the amount (in percentage) of
|
|
additional storage needed to store a single byte of data in the database. For example, a size amplification of 2% means that a database that
|
|
contains 100 bytes of user-data may occupy upto 102 bytes of physical storage. By this definition, a fully compacted database has
|
|
a size amplification of 0%. Rocksdb uses the following heuristic to calculate size amplification: it assumes that all files excluding
|
|
the earliest file contribute to the size amplification. Default: 200, which means that a 100 byte database could require upto
|
|
300 bytes of storage.
|
|
<p>
|
|
<li> <code>CompactionOptionsUniversal::compression_size_percent</code> - If this option is set to be -1 (the default value), all the output files
|
|
will follow compression type specified. If this option is not negative, we will try to make sure compressed
|
|
size is just above this value. In normal cases, at least this percentage
|
|
of data will be compressed.
|
|
When we are compacting to a new file, here is the criteria whether
|
|
it needs to be compressed: assuming here are the list of files sorted
|
|
by generation time: [ A1...An B1...Bm C1...Ct ],
|
|
where A1 is the newest and Ct is the oldest, and we are going to compact
|
|
B1...Bm, we calculate the total size of all the files as total_size, as
|
|
well as the total size of C1...Ct as total_C, the compaction output file
|
|
will be compressed iff total_C / total_size < this percentage
|
|
<p>
|
|
<li> <code>CompactionOptionsUniversal::stop_style</code> - The algorithm used to stop picking files into a single compaction run.
|
|
Can be kCompactionStopStyleSimilarSize (pick files of similar size) or kCompactionStopStyleTotalSize (total size of picked files > next file).
|
|
Default: kCompactionStopStyleTotalSize
|
|
</ul>
|
|
|
|
<h1>Thread pools</h1>
|
|
<p>
|
|
A thread pool is associated with Env environment object. The client has to create a thread pool by setting the number of background
|
|
threads using method <code>Env::SetBackgroundThreads()</code> defined in <code>rocksdb/env.h</code>.
|
|
We use the thread pool for compactions and memtable flushes.
|
|
Since memtable flushes are in critical code path (stalling memtable flush can stall writes, increasing p99), we suggest
|
|
having two thread pools - with priorities HIGH and LOW. Memtable flushes can be set up to be scheduled on HIGH thread pool.
|
|
There are two options available for configuration of background compactions and flushes:
|
|
<ul>
|
|
<p>
|
|
<li> <code>Options::max_background_compactions</code> - Maximum number of concurrent background jobs,
|
|
submitted to the default LOW priority thread pool
|
|
<p>
|
|
<li> <code>Options::max_background_flushes</code> - Maximum number of concurrent background memtable flush jobs, submitted to
|
|
the HIGH priority thread pool. By default, all background jobs (major compaction and memtable flush) go
|
|
to the LOW priority pool. If this option is set to a positive number, memtable flush jobs will be submitted to the HIGH priority pool.
|
|
It is important when the same Env is shared by multiple db instances. Without a separate pool, long running major compaction jobs could
|
|
potentially block memtable flush jobs of other db instances, leading to unnecessary Put stalls.
|
|
</ul>
|
|
<p>
|
|
<pre>
|
|
#include "rocksdb/env.h"
|
|
#include "rocksdb/db.h"
|
|
|
|
auto env = rocksdb::Env::Default();
|
|
env->SetBackgroundThreads(2, rocksdb::Env::LOW);
|
|
env->SetBackgroundThreads(1, rocksdb::Env::HIGH);
|
|
rocksdb::DB* db;
|
|
rocksdb::Options options;
|
|
options.env = env;
|
|
options.max_background_compactions = 2;
|
|
options.max_background_flushes = 1;
|
|
rocksdb::Status status = rocksdb::DB::Open(options, "/tmp/testdb", &db);
|
|
assert(status.ok());
|
|
...
|
|
</pre>
|
|
<h1>Approximate Sizes</h1>
|
|
<p>
|
|
The <code>GetApproximateSizes</code> method can used to get the approximate
|
|
number of bytes of file system space used by one or more key ranges.
|
|
<p>
|
|
<pre>
|
|
rocksdb::Range ranges[2];
|
|
ranges[0] = rocksdb::Range("a", "c");
|
|
ranges[1] = rocksdb::Range("x", "z");
|
|
uint64_t sizes[2];
|
|
rocksdb::Status s = db->GetApproximateSizes(ranges, 2, sizes);
|
|
</pre>
|
|
The preceding call will set <code>sizes[0]</code> to the approximate number of
|
|
bytes of file system space used by the key range <code>[a..c)</code> and
|
|
<code>sizes[1]</code> to the approximate number of bytes used by the key range
|
|
<code>[x..z)</code>.
|
|
<p>
|
|
<h1>Environment</h1>
|
|
<p>
|
|
All file operations (and other operating system calls) issued by the
|
|
<code>rocksdb</code> implementation are routed through a <code>rocksdb::Env</code> object.
|
|
Sophisticated clients may wish to provide their own <code>Env</code>
|
|
implementation to get better control. For example, an application may
|
|
introduce artificial delays in the file IO paths to limit the impact
|
|
of <code>rocksdb</code> on other activities in the system.
|
|
<p>
|
|
<pre>
|
|
class SlowEnv : public rocksdb::Env {
|
|
.. implementation of the Env interface ...
|
|
};
|
|
|
|
SlowEnv env;
|
|
rocksdb::Options options;
|
|
options.env = &env;
|
|
Status s = rocksdb::DB::Open(options, ...);
|
|
</pre>
|
|
<h1>Porting</h1>
|
|
<p>
|
|
<code>rocksdb</code> may be ported to a new platform by providing platform
|
|
specific implementations of the types/methods/functions exported by
|
|
<code>rocksdb/port/port.h</code>. See <code>rocksdb/port/port_example.h</code> for more
|
|
details.
|
|
<p>
|
|
In addition, the new platform may need a new default <code>rocksdb::Env</code>
|
|
implementation. See <code>rocksdb/util/env_posix.h</code> for an example.
|
|
|
|
<h1>Statistics</h1>
|
|
<p>
|
|
To be able to efficiently tune your application, it is always helpful if you
|
|
have access to usage statistics. You can collect those statistics by setting
|
|
<code>Options::table_properties_collectors</code> or
|
|
<code>Options::statistics</code>. For more information, refer to
|
|
<code>rocksdb/table_properties.h</code> and <code>rocksdb/statistics.h</code>.
|
|
These should not add significant overhead to your application and we
|
|
recommend exporting them to other monitoring tools.
|
|
|
|
<h1>Purging WAL files</h1>
|
|
<p>
|
|
By default, old write-ahead logs are deleted automatically when they fall out
|
|
of scope and application doesn't need them anymore. There are options that
|
|
enable the user to archive the logs and then delete them lazily, either in
|
|
TTL fashion or based on size limit.
|
|
|
|
The options are <code>Options::WAL_ttl_seconds</code> and
|
|
<code>Options::WAL_size_limit_MB</code>. Here is how they can be used:
|
|
<ul>
|
|
<li>
|
|
<p>
|
|
If both set to 0, logs will be deleted asap and will never get into the archive.
|
|
<li>
|
|
<p>
|
|
If <code>WAL_ttl_seconds</code> is 0 and WAL_size_limit_MB is not 0, WAL
|
|
files will be checked every 10 min and if total size is greater then
|
|
<code>WAL_size_limit_MB</code>, they will be deleted starting with the
|
|
earliest until size_limit is met. All empty files will be deleted.
|
|
<li>
|
|
<p>
|
|
If <code>WAL_ttl_seconds</code> is not 0 and WAL_size_limit_MB is 0, then
|
|
WAL files will be checked every <code>WAL_ttl_seconds / 2</code> and those
|
|
that are older than WAL_ttl_seconds will be deleted.
|
|
<li>
|
|
<p>
|
|
If both are not 0, WAL files will be checked every 10 min and both
|
|
checks will be performed with ttl being first.
|
|
</ul>
|
|
|
|
<h1>Other Information</h1>
|
|
<p>
|
|
Details about the <code>rocksdb</code> implementation may be found in
|
|
the following documents:
|
|
<ul>
|
|
<li> <a href="https://github.com/facebook/rocksdb/wiki/Rocksdb-Architecture-Guide">
|
|
RocksDB Architecture Guide</a>
|
|
<li> <a href="https://github.com/facebook/rocksdb/wiki/Rocksdb-Table-Format">
|
|
Format of an immutable Table file</a>
|
|
<li> <a href="log_format.txt">Format of a log file</a>
|
|
</ul>
|
|
|
|
</body>
|
|
</html>
|