If you decide to migrate from Plain mode to RT mode or in some other cases, real-time and percolate tables built in Plain mode can be imported to Manticore running in RT mode using the IMPORT TABLE statement. The general syntax is as follows:

IMPORT TABLE table_name FROM 'path'

mysql -P9306 -h0 -e 'create table t(f text)'

mysql -P9306 -h0 -e "backup table t to /tmp/"

mysql -P9306 -h0 -e "drop table t"

BACKUP_NAME=$(ls /tmp | grep 'backup-' | tail -n 1)

mysql -P9306 -h0 -e "import table t from '/tmp/$BACKUP_NAME/data/t/t'

mysql -P9306 -h0 -e "show tables"

Executing this command makes all the table files of the specified table copied to data_dir. All the external table files such as wordforms, exceptions and stopwords are also copied to the same data_dir. IMPORT TABLE has the following limitations:

• paths to the external files that were originally specified in the config file must be absolute
• only real-time and percolate tables are supported
• plain tables need to be preliminarily (in the plain mode) converted to real-time tables via ATTACH TABLE

Note, the IMPORT TABLE command doesn't support tables created in versions older than 5.0.0.

/usr/bin/indexer --rotate --config /etc/manticoresearch/manticore.conf --print-rt my_rt_index my_plain_index > /tmp/dump_regular.sql

mysql -P $9306 -h0 -e "truncate table my_rt_index"

mysql -P 9306 -h0 < /tmp/dump_regular.sql

rm /tmp/dump_regular.sql

Table rotation is a procedure in which the searchd server looks for new versions of defined tables in the configuration. Rotation is supported only in Plain mode of operation.

There can be two cases:

• for plain tables that are already loaded
• tables added in configuration, but not loaded yet

In the first case, the indexer cannot put the new version of the table online as the running copy is locked and loaded by searchd. In this case indexer needs to be called with the --rotate parameter. If rotate is used, indexer creates new table files with .new. in their names and sends a HUP signal to searchd informing it about the new version. The searchd will perform a lookup and will put the new version of the table in place and discard the old one. In some cases, it might be desired to create the new version of the table but not perform rotate as soon as possible. For example, it might be desired to first check the health of the new table versions. In this case, indexer can accept the--nohup parameter which will forbid sending the HUP signal to the server.

New tables can be loaded by rotation; however, the regular handling of the HUP signal is to check for new tables only if the configuration has changed since server startup. If the table was already defined in the configuration, the table should be first created by running indexer without rotation and perform the RELOAD TABLES statement instead.

There are also two specialized statements that can be used to perform rotations on tables:

RELOAD TABLE tbl [ FROM '/path/to/table_files' [ OPTION switchover=1 ] ];

The RELOAD TABLE command enables table rotation via SQL.

This command functions in three modes. In the first mode, without specifying a path, the Manticore server checks for new table files in the directory indicated by the path. New table files must be named as tbl.new.sp?.

If you specify a path, the server searches for table files in that directory, relocates them to the table path, renames them from tbl.sp? to tbl.new.sp?, and rotates them.

The third mode, activated by OPTION switchover=1, switches the index to the new path. Here, the daemon tries to load the table directly from the new path without moving the files. If loading is successful, this new index supersedes the old one.

Also, the daemon writes a unique link file (tbl.link) in the directory specified by path, maintaining persistent redirection.

If you revert a redirected index to the path specified in the configuration, the daemon will detect this and delete the link file.

Once redirected, the daemon retrieves the table from the newly linked path. When rotating, it looks for new table versions at the newly redirected path. Bear in mind, the daemon checks the configuration for common errors, like duplicate paths across different tables. However, it won't identify if multiple tables point to the same path via redirection. Under normal operations, tables are locked with the .spl file, but disabling the lock may cause problems. If there's an error (e.g., the path is inaccessible for any reason), you should manually correct (or simply delete) the link file.

indextool follows the link file, but other tools (indexer, index_converter, etc.) do not recognize the link file and consistently use the path defined in the configuration file, ignoring any redirection. Thus, you can inspect the index with indextool, and it will read from the new location. However, more complex operations like merging will not acknowledge any link file.

mysql> RELOAD TABLE plain_table;
mysql> RELOAD TABLE plain_table FROM '/home/mighty/new_table_files';
mysql> RELOAD TABLE plain_table FROM '/home/mighty/new/place/for/table/table_files' OPTION switchover=1;

RELOAD TABLES;

This command functions similarly to the HUP system signal, triggering a rotation of tables. Nevertheless, it doesn't exactly mirror the typical HUP signal (which can come from a kill -HUP command or indexer --rotate). This command actively searches for any tables needing rotation and is capable of re-reading the configuration. Suppose you launch Manticore in plain mode with a config file that points to a nonexistent plain table. If you then attempt to indexer --rotate the table, the new table won't be recognized by the server until you execute RELOAD TABLES or restart the server.

Depending on the value of the seamless_rotate setting, new queries might be shortly stalled, and clients will receive temporary errors.

mysql> RELOAD TABLES;
Query OK, 0 rows affected (0.01 sec)

The rotate assumes old table version is discarded and new table version is loaded and replaces the existing one. During this swapping, the server needs to also serve incoming queries made on the table that is going to be updated. To avoid stalls of the queries, the server implements a seamless rotate of the table by default, as described below.

Tables may contain data that needs to be precached in RAM. At the moment, .spa, .spb, .spi and .spm files are fully precached (they contain attribute data, blob attribute data, keyword table, and killed row map, respectively). Without seamless rotate, rotating a table tries to use as little RAM as possible and works as follows:

1. New queries are temporarily rejected (with "retry" error code).
2. searchd waits for all currently running queries to finish.
3. Old table is deallocated and its files are renamed.
4. New table files are renamed and required RAM is allocated.
5. New table attribute and dictionary data is preloaded to RAM.
6. searchd resumes serving queries from the new table.

However, if there's a lot of attribute or dictionary data, then the preloading step could take noticeable time - up to several minutes in case of preloading 1-5+ GB files.

With seamless rotate enabled, rotation works as follows:

1. New table RAM storage is allocated.
2. New table attribute and dictionary data is asynchronously preloaded to RAM.
3. On success, old table is deallocated and both tables' files are renamed.
4. On failure, new table is deallocated.
5. At any given moment, queries are served either from old or new table copy.

Seamless rotate comes at the cost of higher peak memory usage during the rotation (because both old and new copies of .spa/.spb/.spi/.spm data need to be in RAM while preloading the new copy). However, average usage stays the same.

Example:

seamless_rotate = 1

You can modify existing data in an RT or PQ table by either updating or replacing it.

UPDATE replaces row-wise attribute values of existing documents with new values. Full-text fields and columnar attributes cannot be updated. If you need to change the content of a full-text field or columnar attributes, use REPLACE.

REPLACE works similarly to INSERT except that if an old document has the same ID as the new document, the old document is marked as deleted before the new document is inserted. Note that the old document does not get physically deleted from the table. The deletion can only happen when chunks are merged in a table, e.g., as a result of an OPTIMIZE.

Both UPDATE and a partial REPLACE can change the value of a field, but they operate differently:

• UPDATE can only change fields that are neither columnar nor full-text. This process is done in-place, which is typically faster than REPLACE.
• A partial REPLACE can change any field in a document, but it requires that all fields in the table be set to "stored" (though this is the default setting). This is not necessary with UPDATE.