Server logging

By default, Manticore search daemon will log all runtime events in a searchd.log file in the directory the searchd was started from. Normally in Linux you can find the log in /var/log/manticore/searchd.log.

The log file path/name can be overriden via setting log in section searchd of the configuration file.

searchd {
...
    log = /custom/path/to/searchd.log
...
}
  • Also you can use syslog as the file name. In this case the events will be sent to your server's syslog daemon.
  • In some cases you might want to use /dev/stdout as the file name. In this case in Linux Manticore will just output the events. It can be useful in Docker/Kubernetes environments.

Binary logging

Binary logging is a recovery mechanism for Real-Time table data and also for attributes updates of plain tables that would otherwise only be stored in RAM until flush. With binary logs enabled, searchd writes every given transaction to the binlog file, and uses that for recovery after an unclean shutdown. On clean shutdown, RAM chunks are saved to disk, and then all the binlog files are unlinked.

Disabling binary logging

Binary logging is enabled by default. The default location for binlog.* files in Linux is /var/lib/manticore/data/. In the RT mode the binary logs are saved in the data_dir folder, unless specifed differently.

Binary logging can be disabled by setting binlog_path to empty:

searchd {
...
    binlog_path = # disable logging
...

Disabling binary logging improves performance for Real-Time tables, but puts their data at risk.

The directive can be used to set a custom path:

searchd {
...
    binlog_path = /var/data
...

Operations

When logging is enabled, every transaction committed into RT table gets written into a log file. Logs are then automatically replayed on startup after an unclean shutdown, recovering the logged changes.

Log size

During normal operation, a new binlog file will be opened every time when binlog_max_log_size limit is reached. Older, already closed binlog files are kept until all of the transactions stored in them (from all tables) are flushed as a disk chunk. Setting the limit to 0 pretty much prevents binlog from being unlinked at all while searchd is running; however, it will still be unlinked on clean shutdown. By default, there is no limit of the log file size.

binlog_max_log_size = 16M

Binary flushing strategies

There are 3 different binlog flushing strategies, controlled by directive binlog_flush:

  • 0, flush and sync every second. Best performance, but up to 1 second worth of committed transactions can be lost both on server crash, or OS/hardware crash.
  • 1, flush and sync every transaction. Worst performance, but every committed transaction data is guaranteed to be saved.
  • 2, flush every transaction, sync every second. Good performance, and every committed transaction is guaranteed to be saved in case of server crash. However, in case of OS/hardware crash up to 1 second worth of committed transactions can be lost.

Default mode is flush every transaction, sync every second (mode 2).

searchd {
...
    binlog_flush = 1 # ultimate safety, low speed
...
}

Recovery

On recovery after an unclean shutdown, binlogs are replayed and all logged transactions since the last good on-disk state are restored. Transactions are checksummed so in case of binlog file corruption garbage data will not be replayed; such a broken transaction will be detected and will stop replay. Transactions also start with a magic marker and timestamped, so in case of binlog damage in the middle of the file, it is technically possible to skip broken transactions and keep replaying from the next good one, and/or it is possible to replay transactions until a given timestamp (point-in-time recovery), but none of that is implemented yet.

Flushing RT RAM chunks

Intensive updating of a small RT table that fully fits into a RAM chunk will lead to an ever-growing binlog that can never be unlinked until clean shutdown. Binlogs are essentially append-only deltas against the last known good saved state on disk, and unless RAM chunk gets saved, they can not be unlinked. An ever-growing binlog is not very good for disk use and crash recovery time. To avoid this, you can configure searchd to perform a periodic RAM chunk flush to fix that problem usingrt_flush_perioddirective. With periodic flushes enabled,searchd` will keep a separate thread, checking whether RT tables RAM chunks need to be written back to disk. Once that happens, the respective binlogs can be (and are) safely unlinked.

searchd {
...
    rt_flush_period = 3600 # 1 hour
...
}

By default the RT flush period is set to 10 hours.

Note that `rt_flush_period only controls the frequency at which the checks happen. There are no guarantees that the particular RAM chunk will get saved. For instance, it does not make sense to regularly re-save a huge RAM chunk that only gets a few rows worth of updates. Manticore determines automatically whether to actually perform the flush with a few heuristics.

Docker logging

When you use the official Manticore docker image, the server log is sent to /dev/stdout which can be viewed from host with:

docker logs manticore

The query log can be diverted to Docker log by passing variable QUERY_LOG_TO_STDOUT=true.

The log folder is the same as in case of Linux package set to /var/log/manticore. If desired, it can be mounted to a local path to view or process the logs.